FCC ID: 2ALVR-9271 Retail Sensor Platform board

RSP-9003 Installation & User Guide Revision 0.7 RSP-9003 Installation & User Guide Encinitas Laboratories, Inc. Corporate Headquarters 2386 Faraday Avenue, Suite 140 Carlsbad, CA 92008 U.S.A. http://www.encinitaslabs.com The information contained herein is proprietary and is provided solely for the purpose of allowing customers to install and configure Encinitas Labs manufactured equipment and is not to be released, reproduced, or used for any other purpose without written permission of Encinitas Laboratories, Inc. Information and specifications contained in this document are subject to change without prior notice and do not represent a commitment on the part of Encinitas Laboratories, Inc. 2014 2017 by Encinitas Laboratories, Inc. All rights reserved. REVISION 0.7 PAGE 2 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide Revision History Initial draft release Added maximum power output and RF exposure warning verbiage Added French user notices and contains module verbiage Date 4/20/17 7/06/17 Revision Description 0.5 0.6 8/08/17 0.7 REVISION 0.7 PAGE 3 OF 42 ENCINITAS LABS PROPRIETARY Table of Contents RSP-9003 Installation & User Guide 1 INTRODUCTION ................................................................................................................................. 7 1.1 FEDERAL COMMUNICATIONS COMMISSION (FCC) COMPLIANCE .................................................... 8 1.2 INDUSTRY CANADA (IC) COMPLIANCE .............................................................................................. 9 1.3 EUROPE EU DECLARATION OF CONFORMITY ............................................................................. 10 1.3.1 OTHER REGULATORY REQUIREMENTS .................................................................................................... 10 2 PRODUCT DESCRIPTION .............................................................................................................. 11 2.1 FEATURES ......................................................................................................................................... 11 2.1.1 PASSIVE INFRA-RED DETECTOR ............................................................................................................... 11 2.1.2 INTERNAL RFID ANTENNA ........................................................................................................................ 11 2.1.3 ACCELEROMETER/MAGNETOMETER ....................................................................................................... 11 2.1.4 TEMPERATURE/HUMIDITY ........................................................................................................................ 11 2.1.5 UHF RFID READER .................................................................................................................................... 11 3 SYSTEM DESCRIPTION ................................................................................................................. 12 4 PRODUCT SPECIFICATION (RSP-9003) .................................................................................. 13 5 HARDWARE DESCRIPTION ......................................................................................................... 14 5.1 MOUNTING HOLES ........................................................................................................................... 14 5.2 MOTION SENSOR M1 ....................................................................................................................... 14 5.3 CONNECTOR J1 (RJ-45) .................................................................................................................. 14 5.4 VISUAL INDICATOR D1 (TRI-COLOR LED) ................................................................................... 15 5.4.1 OFF ................................................................................................................................................................ 15 5.4.2 GREEN (POWER ON) ................................................................................................................................. 15 5.4.3 LIGHT BLUE ................................................................................................................................................. 15 5.4.4 FLASHING WHITE ...................................................................................................................................... 15 5.4.5 SOLID PURPLE ............................................................................................................................................ 15 5.4.6 FLASHING PURPLE .................................................................................................................................... 15 5.4.7 SOLID YELLOW (IDLE) ................................................................................................................................ 15 5.4.8 BLUE ............................................................................................................................................................. 15 5.4.9 FLASHING BLUE .......................................................................................................................................... 15 5.4.10 FLASHING RED .......................................................................................................................................... 15 6 SOFTWARE DESCRIPTION ........................................................................................................... 16 6.1 OPERATING SYSTEM ........................................................................................................................ 16 6.2 COMMAND LINE INTERFACE ............................................................................................................ 16 6.3 RFID GATEWAY COMMAND SET .................................................................................................... 16 6.4 REMOTE MANAGEMENT .................................................................................................................. 16 7 THEORY OF OPERATION .............................................................................................................. 16 7.1.1 RFID GATEWAY DISCOVERY ..................................................................................................................... 17 7.1.2 RFID BEHAVIOR CONTROL ........................................................................................................................ 18 7.1.3 MANAGING LARGE TAG POPULATIONS .................................................................................................... 21 7.1.3.1 Normal Scan (Dual Target) .............................................................................................................. 22 REVISION 0.7 PAGE 4 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.3.2 High Mobility (Dual Target) ............................................................................................................ 23 7.1.3.3 Deep Scan (Single Target) ................................................................................................................ 24 7.1.4 SEARCHING FOR A SINGLE TAG OR GROUP OF TAGS .............................................................................. 25 7.1.4.1 Tag "Select" ............................................................................................................................................ 26 7.1.4.2 Post Match" Filtered Inventory.................................................................................................... 27 8 SYSTEM INSTALLATION ............................................................................................................... 28 8.1 RF EXPOSURE STATEMENT ............................................................................................................. 28 8.2 INFORMATION TO THE USER ........................................................................................................... 28 8.3 CABLING INFRASTRUCTURE ............................................................................................................ 29 8.3.1 CORRECT WIRING STANDARDS ................................................................................................................. 29 8.3.2 PROPER CABLE TYPE .................................................................................................................................. 30 8.3.3 PROPER CABLE LENGTH ............................................................................................................................. 30 8.3.4 ENVIRONMENTAL CONDITIONS ................................................................................................................. 30 8.3.5 POWER OVER ETHERNET ........................................................................................................................... 31 8.4 CONNECTIVITY ................................................................................................................................. 31 8.4.1 PHYSICAL ....................................................................................................................................................... 31 8.4.2 NETWORK DIAGRAM ................................................................................................................................... 32 8.5 MOUNTING ........................................................................................................................................ 33 8.5.1 TRACK LIGHT MOUNTING BRACKET ........................................................................................................ 34 8.5.2 WALL MOUNTING BRACKET ...................................................................................................................... 35 9 COMMAND LINE INTERFACE (CLI) SUPPORT ....................................................................... 36 9.1 TOP LEVEL ........................................................................................................................................ 37 9.2 RFID PROTOCOL COMMANDS ........................................................................................................ 37 9.3 RFID SELECT COMMANDS ............................................................................................................... 38 9.4 LOG COMMANDS ............................................................................................................................... 38 9.5 RFID RADIO COMMANDS ................................................................................................................ 38 9.6 LED COMMANDS .............................................................................................................................. 39 9.7 VERSION COMMANDS ....................................................................................................................... 39 9.8 SSL COMMANDS ............................................................................................................................... 39 9.9 RSP COMMANDS .............................................................................................................................. 40 9.10 TAG COMMANDS ............................................................................................................................ 40 9.11 SYSTEM COMMANDS ...................................................................................................................... 40 9.12 RFID TEST COMMANDS ................................................................................................................ 41 9.13 RFID PLATFORM COMMANDS ...................................................................................................... 42 9.14 RFID QUERY COMMANDS ............................................................................................................. 42 REVISION 0.7 PAGE 5 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide Table of Figures Figure 1 Example RFID Deployment using Retail Sensor Platforms ............................... 12 Figure 2 RSP-9003 ............................................................................................................................... 14 Figure 3 Gateway Discoveries ......................................................................................................... 17 Figure 4 Normal Scan (Dual Target) ............................................................................................. 22 Figure 5 High Mobility (Dual Target) ........................................................................................... 23 Figure 6 Deep Scan using Filtered Inventory ............................................................................ 24 Figure 7 Tag "Select" ........................................................................................................................... 26 Figure 8 Configuring a Post Match Inventory ........................................................................... 27 Figure 9 T-568A vs. T-568B ............................................................................................................. 29 Figure 10 Physical In-Store Connectivity ................................................................................... 31 Figure 11 Network Diagram and Firewall Rules ..................................................................... 32 Figure 12 Black Track Light Mounted RSP ................................................................................ 33 Figure 13 White Track Light Mounted RSP ............................................................................... 33 Figure 14 Track Light Assembly .................................................................................................... 34 Figure 15 RSP Wall Mount Assembly ........................................................................................... 35 REVISION 0.7 PAGE 6 OF 42 ENCINITAS LABS PROPRIETARY Introduction 1 This document is a guide for the installation, setup and use of the RSP-9003 Retail Sensor Platform (Revision 1B). RSP-9003 Installation & User Guide THE REMAINDER OF THIS PAGE IS INTENTIONALLY LEFT BLANK. REVISION 0.7 PAGE 7 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 1.1 Federal Communications Commission (FCC) Compliance This device, which contains FCC ID: 2ALVR-9271 and IC: 22664-9271, complies with FCC Part 15 and ISED license-exempt RSS standards. 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. Cet appareil, qui contient ID FCC: 2ALVR-9271 et IC: 22664-9271, est conforme aux exigences FCC et ISED pour les appareils radio autoriss. L'opration est soumise aux deux conditions suivantes: (1) cet appareil ne doit pas provoquer d'interfrence, et (2) cet appareil peut provoquer des interfrences, y compris des interfrences pouvant entraner un fonctionnement indsirable. Caution: Changes to this product or modifications not expressly approved by the party responsible for compliance could void your authority to operate the equipment. Antennas used for this device must be installed to provide a separation distance of at least 30 cm from all persons, and must not be co-located or operating in conjunction with any other antenna or transmitter. Users and installers must be provided installation instructions and transmitter operating conditions for satisfying RF exposure complaince. L'antenne (s) utilise (s) pour cet metteur doit tre installe pour assurer une distance de sparation d'au moins 30 cm de Personnes et ne doivent pas tre co-situs ou fonctionner conjointement avec une autre antenne ou metteur. Utilisateurs et Les installateurs doivent tre munis d'instructions d'installation d'antenne et de conditions d'exploitation de l'metteur pour conformit l'exposition RF. REVISION 0.7 PAGE 8 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide Industry Canada (IC) Compliance 1.2 This device, which contains FCC ID: 2ALVR-9271 and IC: 22664-9271, complies with FCC Part 15 and ISED license-exempt RSS standards. 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. Cet appareil, qui contient ID FCC: 2ALVR-9271 et IC: 22664-9271, est conforme aux exigences FCC et ISED pour les appareils radio autoriss. L'opration est soumise aux deux conditions suivantes: (1) cet appareil ne doit pas provoquer d'interfrence, et (2) cet appareil peut provoquer des interfrences, y compris des interfrences pouvant entraner un fonctionnement indsirable. Caution: Changes to this product or modifications not expressly approved by the party responsible for compliance could void your authority to operate the equipment. REVISION 0.7 PAGE 9 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 1.3 Europe EU Declaration of Conformity Hereby, Encinitas Laboratories, Inc. declares that the radio equipment type RSP-9003 is in compliance with Radio Equipment Directive (RED) 2014/53/EU EU directive 2011/65/EU (RoHS II) The full text of the EU declaration of conformity is available at the following internet address:

1.3.1 Other Regulatory Requirements Hereby, Encinitas Laboratories, Inc. declares that the radio equipment type RSP-9003 is in compliance with REACH Regulation (EC) 1907/2006 WEEE Directive 2012/19/EU REVISION 0.7 PAGE 10 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 2 Product Description The RSP-9003 and RSP-9800 are members of the Smart Sensor family that is part of the Intel Responsive Retail System (RRS). These devices have capabilities for several on-board sensors including an EPC Gen 2 UHF RFID Interrogator (reader). These sensors are designed to work stand-alone, or in a network of other Smart Sensors as part of an Internet-of-Things (IoT) system where computing power is pushed out to the edge devices. 2.1 Features The RSP-9003 is designed to be ceiling or wall mounted facing into the retail space and hidden from view. The following features are unique to the RSP-9003. 2.1.1 Passive Infra-Red Detector A passive infra-red detector is used to detect human motion. Internal RFID Antenna 2.1.2 The RSP-9003 uses and internal 5.5 dBi Dual Linear antenna. 2.1.3 Accelerometer/Magnetometer The common PCBA includes a 3D accelerometer/magnetometer device suitable for reading the orientation of the device as it is mounted. 2.1.4 Temperature/Humidity The common PCBA includes a temperature and humidity device suitable for reading the environment that the PCB is exposed to. 2.1.5 UHF RFID Reader The common PCBA includes a UHF EPC Gen 2 RFID Reader module. This module supports the core functionality of RRS (i.e. inventory management). REVISION 0.7 PAGE 11 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 3 System Description The RSP-9003 is just one component of the larger Intel Responsive Retail Platform

(RRP) shown in Figure 1 below. The system is comprised of one or more Retail Sensor Platforms, an RFID Gateway for control and orchestration and a Cloud Application Server for data storage, analytics and remote management of the entire System. Figure 1 Example RFID Deployment using Retail Sensor Platforms The power of the RRP is in the networked communication and coordination that exists between the RSP's themselves and between the RSP and the RFID Retail Gateway. Whether a system deployment has 5 or 500 Retail Sensor Platforms, this communication and coordination greatly simplifies initial configuration as well as the operational management. REVISION 0.7 PAGE 12 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 4 Product Specification (RSP-9003) Electrical:

Air Interface Protocol Operating Frequency Radiated Power Antenna Power Source Power Consumption Tag Read Range Tag Read Rate Visual Indicators Mechanical:

Dimensions Weight Mounting Color Environmental:

Operating Temperature Rating Application Interface:

Network Connectivity IP Address Configuration Data Protocols Configuration / Management Time Synchronization Software / Firmware Updates Regulatory:

Safety Compliance RF Certifications EPC UHF RFID Class 1 Gen 2 (ISO 18000-6C) 902-928 MHz (FCC), 865-868 MHz (ETSI) Up to 4W EIRP (2W ERP) Integrated Dual-Linear Polarity POE (802.3af, 802.3at, Cisco UPOE) 13W max, 5W idle

> 15m

> 600 tag reads / sec. Single tri-color LED 9 x 9 x 2 (23 cm x 23 cm x 5 cm) 2.3 lbs. (1.0 kg) Vesa 75 mm pattern, M4 threads Black and White available 0 to +50 degrees C IP-50 Ethernet 10/100 DHCP or Static JSON-RPC 2.0 over MQTT mDNS/DNS-SD, MeshCentral NTP Remote Push IEC 60950-1 FCC Part 15.247 C, ETSI EN 302208-1 REVISION 0.7 PAGE 13 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 5 Hardware Description Figure 2 highlights the external interfaces of the RSP-9003 from Encinitas Labs. D1 M1 75 mm Hole Pattern J1 Figure 2 RSP-9003 5.1 Mounting Holes The RSP-9003 provides a 75-mm hole pattern compatible with several types of mounting brackets. The holes are threaded to accept up to a 1 cm M4 stud. 5.2 Motion Sensor M1 The RSP-9003 uses a passive infrared sensor to detect human motion in the field of the RFID antenna. 5.3 Connector J1 (RJ-45) The RSP-9003 is a 48V Power Over Ethernet (POE) Class 3 device as defined in IEEE 802.3af. The RSP-9003 supports 10/100 Ethernet on this same connector. REVISION 0.7 PAGE 14 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 5.4 Visual Indicator D1 (Tri-Color LED) The RSP-9003 provides a multicolored visual indicator to notify the user of the following operational states. 5.4.1 OFF An LED state of off" indicates the RSP-9003 has either been commanded to disable its visual indicator or is otherwise non-operational. 5.4.2 GREEN (Power On) An LED state of "solid green" is the default to indicate power has been successfully applied to the RSP. This initial LED state should not last longer than 2 3 minutes. After 2 3 minutes, the LED color should transition to indicate successful OS boot. 5.4.3 Light BLUE An LED state of solid light blue" indicates the RSP-9003 has successfully booted to the Linux OS, but the RFID Applications are not yet running. 5.4.4 Flashing WHITE An LED state of flashing white" after boot up indicates the RSP-9003 is in the process of discovering the RFID Gateway. The state of flashing white" can also be commanded (i.e. Beacon Mode) by the Gateway via JavaScript Object Notation

(JSON) Remote Procedure Call (RPC) for visually identifying the RSP. 5.4.5 Solid PURPLE An LED state of solid purple" indicates the RSP-9003 is waiting to read a security provisioning tag. 5.4.6 Flashing PURPLE After a security provisioning tag has been successfully read, the RSP-9003 LED state will be flashing purple" for a period of 5 seconds. 5.4.7 Solid Yellow (Idle) Following Gateway Discovery, an LED state of solid yellow" indicates that The RSP-

9003 is in the idle state and ready to accept commands. 5.4.8 BLUE An LED state of solid blue" indicates the RSP-9003 is currently in an Inventory Cycle (i.e. transmitting) but not receiving any tag data. 5.4.9 Flashing BLUE An LED state of flashing blue" indicates the RSP-9003 is currently in an Inventory Cycle (i.e. transmitting) and successfully communicating with RFID tags. 5.4.10 Flashing RED An LED state of flashing red" indicates the RSP-9003 has detected a failure. This will continue until the alert is acknowledged by the RFID Gateway or the CLI. REVISION 0.7 PAGE 15 OF 42 ENCINITAS LABS PROPRIETARY 6 Software Description RSP-9003 Installation & User Guide 6.1 Operating System The RSP-9003 from Encinitas Labs uses the Intel Quark processor running a Yocto Project Linux kernel and a Debian Linux file system. 6.2 Command Line Interface The RSP-9003 supports a comprehensive set of command line functions that provide the user with a useful tool for testing tags and developing macro level RFID applications. 6.3 RFID Gateway Command Set The RSP-9003 supports a JSON RPC 2.0 command set over MQTT that allows it to be a smart slave device controlled by the RFID Gateway. 6.4 Remote Management The RSP-9003 supports web based remote monitoring and management services via MeshCentral technology. 7 Theory of Operation The power of RRP is in the networked communication and coordination that exists between the Sensor Platforms themselves and between the RFID Gateway. Whether a particular RFID system deployment has 5 or 500 RSP devices, this communication and coordination greatly simplifies initial configuration as well as the operational management. This section defines the set of messages used between the RFID Retail Sensor Platform and the RFID Gateway that facilitates this orchestration. Some of these messages affect the RF power output and modulation scheme being transmitted. The Impinj R2000 RF subsystem buffers all commands received from the RFID Gateway via the Host Processor. NOTE: Any command that attempts to set a parameter to a value that is outside its valid range or would otherwise cause the RSP-9003 to no longer be compliant with its certification will return an error code and the previous command settings will persist. Several Use Cases have been defined that illustrate initial discovery, configuration and tag population management. Detailed message definitions can be found in the Retail Sensor Platform API. REVISION 0.7 PAGE 16 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.1 RFID Gateway Discovery A goal of the RFID Sensor Platform is to be as much of a zero-conf" installation as possible. Once power is applied, the RSP Sensor autonomously acquires a network address via DHCP and discover the RSP Gateway. It then synchronizes its system clock and registers with the MeshCentral Server. The RSP Sensor also supports encryption via a TLS connection to the MQTT broker. An optional provisioning tag containing a hash and token can be used for the RSP Sensor to authenticate the Cloud and the RSP Gateway to authenticate the sensor as it connects. Error!

Reference source not found. illustrates the message exchange involved in this use case. Figure 3 Gateway Discoveries REVISION 0.7 PAGE 17 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.2 RFID Behavior Control In addition to using default values, the RFID Sensor Platform supports the detailed RFID configuration via the apply_behavior API command. This command is shown below (see the RFID API Command Set document for a complete set of command definitions). Table 1 Apply Behavior Parameters Parameter action action_time behavior id operation_mode link_profile power_level dwell_time inv_cycles selected_state session_flag target_state q_algorithm Definition Specifies the action to be taken. The valid values are START" and STOP". Specifies the millisecond epoch time to apply the behavior. If zero or not included, the behavior is applied immediately. Optional set of behavior parameters (see below). The ID string assigned to this behavior The embedded RFID module transmit operation mode. The valid values are "Continuous" and "NonContinuous". The default value is "NonContinuous". The RF Link Profile to be used for this behavior.

(see Table 2 Link Profile Parameters) The valid range is 0 4. The power output level in dBm to be used for this behavior. The valid range is 0 31.5. The maximum amount of time (ms) spent on a particular virtual port before switching to the next virtual port during an inventory cycle. If this parameter is zero, the inv_cycles" parameter may not be zero. The valid range is 0 65535. The maximum amount of inventory cycles to attempt on a particular virtual port before switching to the next virtual port during an inventory cycle. If this parameter is zero, the dwell_time" parameter may not be zero. The valid range is 0 65535. Specifies the state of the SL" flag to be used for this behavior when specifying a select protocol operation. The valid values are:

Any", Deasserted" and Asserted". Specifies which inventory session flag is matched against the state specified by target_state". (see Table 3 Session Flag Persistence Values) The valid values are S0", S1", S2" and S3". Specifies the state of the inventory session flag specified by session_flag" that are to apply the subsequent tag protocol operation. (see Table 3 Session Flag Persistence Values) The valid values are A" and B". The specific Q algorithm being configured. The valid values are Fixed" and Dynamic". When using a Fixed" algorithm, the number of time slots is 2^Q. When using a Dynamic" algorithm, the Smart Sensor Platforms embedded module will vary the number of slots REVISION 0.7 PAGE 18 OF 42 ENCINITAS LABS PROPRIETARY fixed_q_value repeat_until_no_tags start_q_value min_q_value max_q_value threshold_multiplier retry_count toggle_target_flag toggle_mode perform_select perform_post_match filter_duplicates auto_repeat delay_time RSP-9003 Installation & User Guide dynamically based on the number of tags responding. The fixed Q value to use (valid when q_algorithm = Fixed). The valid range of this parameter is 0 15. Specifies whether or not the singulation algorithm should continue until no more tags are singulated. The valid values are true" or false". The initial Q value to use at the beginning of an inventory round (valid when q_algorithm = Dynamic). The valid range of this parameter is 0 15. The minimum Q value that would ever be used during an inventory round (valid when q_algorithm = Dynamic). The valid range of this parameter is 0 15. The maximum Q value that would ever be used during an inventory round (valid when q_algorithm = Dynamic). The valid range of this parameter is 0 15. A 4X multiplier applied to the Q-adjustment threshold as part of the dynamic-Q algorithm. The valid range of this parameter is 0 255. The number of times to try another execution of the singulation algorithm before either toggling the target flag or terminating the operation. The valid range of this parameter is 0 255. Specifies whether or not to toggle the targeted flag. The valid values are true" or false". When toggle_target_flag is true, this value specifies when to toggle the targeted flag. The valid values are None, OnInvCycle", OnInvRound, or OnReadRate". Specifies whether or not to perform a select command based on the previously configured criteria The valid values are true" and false". Specifies whether or not to perform a post singulation match based on the previously configured criteria. The valid values are true" and false". Specifies whether or not the RFID Sensor Platform should filter out duplicate tag information before sending to the Gateway. The valid values are true" or false". Specifies whether or not to continue performing inventory rounds until the stop_inventory" command is received. When this value is "No", an "inventory_complete" indication will be sent from the RFID Sensor Platform to the RSP Gateway at the end of the inventory round. The valid values are true" and false". The amount of time (ms) that the transmitter is turned off between subsequent inventory rounds. Used when

"auto_repeat" is true to control the transmit duty cycle. The valid range is 0 65535. REVISION 0.7 PAGE 19 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide Table 2 Link Profile Parameters Parameter / Profile Index Modulation Type Tari Duration (us) Data 0/1 Difference Pulse Width (us) R-T Calculation (us) T-R Calculation (us) Divide Ratio Data Encoding Pilot Tone Link Frequency (kHz) Data Rate (kbps) 0 1 2 3 4 DSB-ASK PR-ASK PR-ASK DSB-ASK DSB-ASK 25 1 12.5 75 200 8 FM0 1 40 40 25 25 0.5 0.5 12.5 12.5 62.5 62.5 71.11 85.33 21.33 21.33 Miller-4 Miller-4 1 250 62.5 1 300 75 6.25 0.5 3.13 15.63 20 8 FM0 1 400 400 6.25 0.5 3.13 15.63 33.33 21.33 FM0 1 640 640 Table 3 Session Flag Persistence Values Session S0 S1 S2 S3 Tag Energized Indefinite 500 ms < persistence < 5 s Indefinite Indefinite Tag Not Energized None 2 s < persistence 2 s < persistence 2 s < persistence REVISION 0.7 PAGE 20 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.3 Managing Large Tag Populations The RFID Gateway can segregate a large tag population into several smaller ones using the Retail Sensor Platforms select" and post-match" functions. Segregation allows the RSP-9003 to more accurately inventory a tag population by avoiding collisions. This same functionality can also be used to isolate a single tag that might be located in a challenging RF environment or perhaps physically oriented in a less than optimal fashion. A challenge in managing larger tag populations is dealing with tag collisions"

during the query-response (more than one tag responding at exactly the same time). The RSP-9003 offers an adaptive algorithm (Dynamic-Q) function to mitigate tag collisions. An adaptive Q algorithm increases the reading efficiency significantly thereby reducing the time it takes to completely inventory a large tag population. The RSP-9003 allows the RFID Gateway to optimally configure the Q Algorithm based on a known tag population. Dynamic-Q is used by default, which relieves the Gateway from having to explicitly set the Q-value. REVISION 0.7 PAGE 21 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.3.1 Normal Scan (Dual Target) This Use-Case illustrates the most common situation where a number of tagged items are being continuously inventoried on an RFID-enabled smart shelf" or perhaps an overhead Retail Sensor Platform in an RFID-enabled smart store". This mode will allow multiple reads per tag for a moderate update of tag status to alert the RFID system should a tagged item be moved. No tag filtering is specified. Figure 4 illustrates the message exchange involved in this use case. Figure 4 Normal Scan (Dual Target) REVISION 0.7 PAGE 22 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.3.2 High Mobility (Dual Target) This Use-Case addresses the situation where a number of tagged items are being continuously inventoried, and higher numbers of reads per tag are required to detect tag mobility. Figure 4 illustrates the message exchange involved in this use case. Figure 5 High Mobility (Dual Target) REVISION 0.7 PAGE 23 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.3.3 Deep Scan (Single Target) This Use-Case illustrates a thorough Deep Scan" using the most robust RF link to insure that all tags within the coverage area are successfully read at least once. This mode also uses suppression to allow weaker tags to respond without competing with the multiple responses of other tags and is recommended only in situations where multiple reads per tag is not required. Sessions 2 and 3 are used to provide longer suppression times while scanning. Alternating between sessions 2 and 3

(and between A and B) allows for a rapid recovery when rescanning the tag population. This use-case insures that even the most distant tags with the weakest backscatter signal can be eventually read. Figure 6 illustrates the message exchange involved in this use case. Figure 6 Deep Scan using Filtered Inventory REVISION 0.7 PAGE 24 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.4 Searching for a Single Tag or Group of Tags There are two ways to search for an individual tag or group of tags using The RSP-

9003 (RSP). The select" function configures the RSP-9003 with set of tag filter criteria and instructs those tags that match that filter criteria to modify a certain register flag, forcing it to a known value prior to singulation. The tag protocol operation (i.e. read, write, kill) is applied only to those tags that meet the filter criteria. When tag populations are relatively large (> 1000) or when it is critical to apply a tag protocol operation to only a single tag, this method of filtering is preferred. A good example of an applied use of the "select" function would be at the point-of-sale (POS) where tags could be deactivated (killed) prior to exiting a controlled area. The "post-match" function configures The RSP-9003 with set of tag filter criteria that is applied "post" singulation or after a particular tag protocol operation is performed. Even though the tag still has to compete in the RF environment of the singulation process, the only data sent to the RFID Gateway is from those tags that match the filter criteria defined in the "post match" function. Post Match" filtering is a single step process, tag memory is not modified and all tags respond to the inventory request. When tag populations are relatively small (< 1000), this method of filtering on certain tags is more efficient. A good example of an applied use of the

"post match" function would be when searching a larger tag population with a hand scanner for a particular tag or group of tags. REVISION 0.7 PAGE 25 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.4.1 Tag "Select"

This Use-Case shows an example of the tag "select" function to search for a single tag or group of tags. Figure 7 below illustrates the message exchange involved in this use case. Figure 7 Tag "Select"

REVISION 0.7 PAGE 26 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 7.1.4.2 Post Match" Filtered Inventory This Use-Case shows an example of the tag "post match" function to search for a single tag or group of tags. Figure 8 illustrates the message exchange involved in this use case. Figure 8 Configuring a Post Match Inventory REVISION 0.7 PAGE 27 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8 System Installation 8.1 RF Exposure Statement Caution: The radiated output power of this device is below the FCC and International radio frequency exposure limits. To avoid the possibility of exceeding these exposure limits, always maintain a minimum distance of 20 cm between the antenna and the human body. Details regarding the authorized configurations can be found at http://www.fcc.gov/oet/ea/ by entering the FCC ID from the device. Caution: L'antenne (s) utilise (s) pour cet metteur doit tre installe pour assurer une distance de sparation d'au moins 20 cm de Personnes et ne doivent pas tre co-situs ou fonctionner conjointement avec une autre antenne ou metteur. Utilisateurs et Les installateurs doivent tre munis d'instructions d'installation d'antenne et de conditions d'exploitation de l'metteur pour Conformit l'exposition RF. 8.2 Information to the User 15.105 Information to the user Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Increase the separation between the equipment and receiver. Reorient or relocate the receiving antenna. Connect the equipment to another POE source. Consult the system integrator or authorized technician for help. This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. REVISION 0.7 PAGE 28 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.3 Cabling Infrastructure Poorly or incorrectly installed network cabling can cause numerous problems in the RSP-9003 network. However small it may appear, a problem with network cabling can have a catastrophic effect on the operation of the network. Even a small kink in a cable can cause an RSP to have intermittent connection with the RFID Gateway, and a poorly crimped connector may compromise Power over Ethernet (POE) functionality. If there is existing cabling in an installation, it should be tested first using a Fluke Networks LSPRNTR-100 or equivalent device to insure proper RJ-45 connector pin out and Power over Ethernet (POE) capability before using with to power an RSP. 8.3.1 Correct Wiring Standards There are two wiring standards for network cabling: T568a and T568b. DO NOT COMBINE T568a and T568b on the same cable!

Figure 9 T-568A vs. T-568B RJ-45 connectors are designed for either stranded or solid cable, but usually not both. Ensure use of the correct crimping tool for the specific type of connector. Ethernet cables have four pairs of color-coded twisted wires (orange, green, blue and brown). These cables are designed for high-speed data transfer with very little cross talk. It is important that no more than about 6 mm of the cable is untwisted at either end. REVISION 0.7 PAGE 29 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.3.2 Proper Cable Type For in-store RSP installations, it is recommended to use high-quality CAT 5e or CAT 6 cabling. Cables are categorized according to the data rates that they can transmit effectively. The specifications also describe the material, the connectors and the number of times each pair is twisted per meter. The most widely installed category is CAT 5e. Ensure that the category (CAT) of cabling used in the RFID system installation fulfills the required data rates. Cat 3 (no longer used) up to 16 MHz Cat 5e up to 100 MHz Cat 6 up to 250 MHz Cat 6A up to 500 MHz Cat 7 up to 600 MHZ Cat 7A up to 1 GHz Video and image files are generally much larger than JSON text files and need to be moved around the network as quickly as possible. In general, it is possible to use good-quality CAT 5 cabling for gigabit networks. However, it is generally recommended to use CAT 5e or CAT 6 cabling for gigabit connectivity, even if the existing network switches and routers support only 100 Mbps. This will ensure that the infrastructure in place can support gigabit data rates when an upgrade becomes necessary. 8.3.3 Proper Cable Length Ensure that your cabling meets the requirements of your equipment. The distance between an RSP and the switch cannot be greater than 100 m. If installing sockets, remember to consider the distance between the socket and the RSP. A good rule of thumb is 90 meters for horizontal runs, and ten meters for the patch cabling. Do NOT run cabling next to electrical cabling due to the potential for interference. Since network cabling typically uses solid wire, cabling should not be twisted or bent into a tight radius (not less than 4 times the diameter of the cable). Do not use metal staples to secure cable runs, nor tightly adjusted cable wraps. Avoid a daisy chain network topology using intermediate switches or butt connectors to extend the length of an otherwise "too short" cable run. Use a single continuous cable run from the RSP to the switch. 8.3.4 Environmental Conditions The RSP-9003 is designed to operate at 100% transmit duty-cycle in ambient temperature conditions of up to 50 C provided there is airflow across the back plate of the device. The RSP can also operate at 100% transmit duty-cycle in ambient temperature conditions of up to 35 C when mounted with the back-plate flush against a horizontal surface. REVISION 0.7 PAGE 30 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide The RSP-9003 can operate at higher ambient temperature conditions by autonomously controlling the transmit duty-cycle. However, once the internal microprocessor reaches a temperature of 104 C, the RSP software will shut down to prevent damage and memory corruption. 8.3.5 Power over Ethernet Power over Ethernet (POE) is a mechanism for supplying power to network devices over the same cabling used to carry network traffic. POE allows the RSP to receive both power and data over a single cable. This feature simplifies network installation and maintenance by using an Ethernet switch with integrated POE as a central power source for all RSPs. The challenge during installation is to calculate the total power consumption required making sure it is less than the power budget of the Ethernet switch. The Juniper EX2200-24P-4G is a recommended switch for RSP networks due to its remote manageability and sufficient 400W power budget to provide POE for an RSP on each of the 24 ports. However, any 48V POE+ switch is sufficient. 8.4 Connectivity 8.4.1 Physical Figure 10 shows all the physical components of an in-store RFID network deployment and how they would be connected to one another. To ISP Modem or Corporate Intranet Router 400W POE Switch RFID-GW RFID Retail Sensor Platforms Figure 10 Physical In-Store Connectivity REVISION 0.7 PAGE 31 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.4.2 Network Diagram Prior to installation, make sure to notify the local corporate IT department that certain firewall rules may be necessary for proper functionality of the system. In addition to a more traditional network diagram, Figure 11 shows a list of domains, protocols and ports that the RSP requires access to for proper functionality of the system. ISP Modem or Corporate Intranet Router The following services are used by the Retail Sensor Platform to communicate outside the local RFID LAN Meshcentral Agent (Outbound - TCP 80, 443, 8080) swarm.meshcentral.com meshcentral.com HTTP/HTTPS/WS/WSS (Outbound - TCP 80, 443) us.archive.ubuntu.com security.ubuntu.com us.debian.org security.debian.org Note: Other Domain names are customer specic (see Cloud app setup). For Cloudless installations, these are the WebSocket server endpoints. POE Switch NTP (Outbound - UDP 123) 0.ubuntu.pool.ntp.org 0.ubuntu.pool.ntp.org 0.ubuntu.pool.ntp.org 0.ubuntu.pool.ntp.org The following services are used by the Retail Sensor Platform to communicate within the local RFID LAN RFID-GW Multicast DNS (UDP 5353) MQTT (TCP & UDP 1883, 8883) Meshcentral Agent (TCP & UDP 16990, TCP 16991) HTTP/HTTPS (TCP 80, 443) NTPDATE (UDP 123) Retail Sensor Platforms (RSP) SSH (TCP 22) Figure 11 Network Diagram and Firewall Rules REVISION 0.7 PAGE 32 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.5 Mounting The typical Retail RFID installation will require the RSP sensors to be mounted from the ceiling. A common mounting technique is to utilize existing track-light rails. Figure 12 and Figure 13 show how the RSP can blend in with the actual lights mounted to the same rail. Figure 12 Black Track Light Mounted RSP Figure 13 White Track Light Mounted RSP REVISION 0.7 PAGE 33 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.5.1 Track Light Mounting Bracket Encinitas Labs provides a mounting bracket that allows the SENSOR to be mounted from a track light rail. (see Figure 14) Figure 14 Track Light Assembly REVISION 0.7 PAGE 34 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 8.5.2 Wall Mounting Bracket Encinitas Labs provides a mounting bracket that allows the sensor to be mounted to a flat surface (see Figure 15). Figure 15 RSP Wall Mount Assembly REVISION 0.7 PAGE 35 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 9 Command Line Interface (CLI) Support The RSP-9003 and RSP-9800 are headless appliances designed to accept commands and configuration from the Gateway or Cloud Management Console application. For test and debug purposes, the base functionality for all the commands exposed in the Gateway API can be issued via a local Command Line Interface (CLI) session. Even when being controlled by the Retail Gateway, the CLI is a useful tool for debugging an monitoring key parameters during Gateway operation. The example below shows how to log into the RFID Sensor Platform CLI using Windows PuTTY or other Unix like shell environment. The hostname of the RSP follows the format RSP-xxyyzz where xx:yy:zz are the last three octets of the RSP Ethernet MAC address. The highlighted text identifies what the user must type.

> ssh p 62939 root@RSP-123456.local

> root@rsp-123456.locals password: itsallabouttheE!

root@rsp-123456:~#

root@RSP-123456:~# service rfid-rsp stop Stopping service rfid-rsp... root@RSP-123456:~# cd /opt/rfid-rsp/

root@RSP-123456:/opt/rfid-rsp#

root@RSP-123456:/opt/rfid-rsp# ./bin/rfid-rsp console

--

-- Retail Sensor

-- Version 1.2.3 built at 05/18/2017 16:28:56

--

-- Starting...

--

Retail Sensor Console Session

<tab> to view available commands

'clear' to clear the screen/console

'quit' to end rfid-rsp>

Pressing the <tab> key at any point will present the user with the currently available commands or command options. After entering one of the choices, press the <tab> key again to see additional options or press <enter> to execute the command. Pressing the <enter> key at any point prior to entering a complete command will provide either a general help screen or specific usage information regarding a partially entered command. REVISION 0.7 PAGE 36 OF 42 ENCINITAS LABS PROPRIETARY RSP-9003 Installation & User Guide 9.1 Top Level rfid-rsp> <tab>

quit led system rfid.protocol version rfid.test rfid.select ssl rfid.platform log rsp rfid.query rfid.radio tags kill write cancel resume lock pause write.provisioning.tag 9.2 RFID Protocol Commands rfid-rsp> rfid.protocol <tab>

inventory read get set read.provisioning.tag rfid-rsp> rfid.protocol <enter>

----------------------------------------------------------------------------------------

USAGE

> inventory Perform a tag inventory on all tags of interest rfid.protocol inventory <select> <post-match> <filter-dups> <auto-repeat> <delay_time>

> read Perform a tag read from the specified location on all tags of interest rfid.protocol read <select> <post-match> <bank> <word-offset> <word-count> <retries>

> write Perform a tag write to the specified location on all tags of interest The data must be in hexadecimal format (i.e. 0x123456789abcdef0) rfid.protocol write <select> <post-match> <bank> <word-offset> <word-count> <retries> <data>

> lock Perform a tag lock operation on all tags of interest rfid.protocol lock <select> <post-match> <killPerm> <AccPerm> <epcPerm> <tidPerm> <usrPerm> <retries>

> kill Perform a tag lock operation on all tags of interest rfid.protocol kill <select> <post-match> <retries> <killPass>

> get or set password Configure the Access or Kill Password rfid.protocol get password <type>

rfid.protocol set password <type> <password>

> pause Temporarily pause the protocol operation in progress rfid.protocol pause

> resume Resume the protocol operation in progress rfid.protocol resume

> cancel Cancel the protocol operation in progress rfid.protocol cancel

> read.provisioning.tag Read the contents of a Provisioning Tag given the EPC rfid.protocol read.provisioning.tag <epc>

> write.provisioning.tag Write the contents of a Provisioning Tag given the EPC, Root Cert SHA256 and Token rfid.protocol write.provisioning.tag <epc> <sha256> <token>

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 37 OF 42 ENCINITAS LABS PROPRIETARY 9.3 RFID Select Commands RSP-9003 Installation & User Guide set rfid-rsp> rfid.select <tab>

get rfid-rsp> rfid.select <enter>

----------------------------------------------------------------------------------------

USAGE

> get or set select.criteria The Tag Select Criteria Configuration Tag Select is a pre-singulation activity. The RSP can support up to eight sets of tag Select Criteria. Each set of criteria defines a bitmask to match against the location defined in the specified memory bank. The <action> and any tag protocol operation is applied to any and all tags that match the mask. If the mask is entered as a hexadecimal value, it must be preceded by 0x (i.e. 0xab56 rfid.select get select.criteria <index>

rfid.select set select.criteria <state> <bank> <session> <action> <offset> <count> <mask> <index>

> get or set post.match.criteria The Post Singulation Match Criteria Configuration This criteria defines a bitmask and location to match against the EPC memory bank. Any tag protocol operation is applied either Inclusively or Exclusively. If the mask is entered as a hexadecimal value, it must be preceded by 0x (i.e. 0xab56 rfid.select get post.match.criteria rfid.select set post.match.criteria <match> <offset> <count> <mask>

----------------------------------------------------------------------------------------

9.4 Log Commands set rfid-rsp> log <tab>

show rfid-rsp> log <enter>

----------------------------------------------------------------------------------------

USAGE

> log show Shows the current log level settings for all active loggers

> log set <log id> <level>

Sets the level of the logger associated with the log_id

----------------------------------------------------------------------------------------

9.5 RFID Radio Commands set rfid-rsp> rfid.radio <tab>

get rfid-rsp> rfid.radio <enter>

----------------------------------------------------------------------------------------

USAGE

> get or set freq.plan The Embedded RFID Module Regional Frequency Plan rfid.radio get freq.plan rfid.radio set freq.plan <FreqPlan>

> get or set operation.mode The Inventory Mode of operation (Continuous/NonContinuous rfid.radio get operation.mode rfid.radio set operation.mode <OpMode>

> get or set link.profile The Profile that defines Modulation Type, Tari, Data Rate and Coding rfid.radio get link.profile rfid.radio set link.profile <0 - 3>

> get or set port.config The Virtual Port Configuration An Inventory Round consists of performing one or more Inventory Cycles on each enabled virtual antenna port. The number of Inventory Cycles executed can be fixed by setting <invCycles> to a non-zero value. The amount of time spent on each virtual port can be deterministic by setting <dwellTime> to a non-zero value. rfid.radio get port.config <index>

rfid.radio set port.config <state> <power(dBm)> <dwellTime(ms)> <invCycles(ms)> <pPort> <index>

> set default.values Load the RFID default values specified in rfid.properties rfid.radio set default.values

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 38 OF 42 ENCINITAS LABS PROPRIETARY 9.6 LED Commands RSP-9003 Installation & User Guide clear notify set.state rfid-rsp> led <tab>

set.color.mode rfid-rsp> led <enter>

----------------------------------------------------------------------------------------

USAGE

> led set.color.mode Change the color of the visual indicator led set.color.mode <color> <mode>

Color: [White, Red, Green, Blue, Yellow, Magenta, Cyan, Black]

Mode: [Off, Constant, BlinkOnce, SlowBlink, MediumBlink, FastBlink, Roll]

> led set.state Change the macro state of the visual indicator led set.state <state>

State: [Alert, Beacon, Disabled, Normal, Test]

> led notify Cause the LED to display the notification for the state led notify <stats>

State: [gw.discovery, provision.tag, provision.tag.complete, alert]

> led clear Clear the LED notification for the state led clear <state>

State: [gw.discovery, provision.tag, provision.tag.complete, alert]

----------------------------------------------------------------------------------------

9.7 Version Commands rfid-rsp> version <tab>

info rfid-rsp> version <enter>

----------------------------------------------------------------------------------------

USAGE

> version info Displays the software version information

----------------------------------------------------------------------------------------

9.8 SSL Commands load.json.cert delete.cert cert.detail retrieve.json.cert rfid-rsp> ssl <tab>

info rfid-rsp> ssl <enter>

----------------------------------------------------------------------------------------

USAGE

> ssl info Displays summary information about certificates

> ssl cert.detail <alias>

Displays certificate associated with the alias

> ssl load.json.cert <alias> <full path to file>

Loads the certificate from the file must be in Base64 encoded one line pem format (Json Certificate API)

> ssl retrieve.json.cert <url>

Retrieves the json certificate from the url and stores the certificate using the url for the alias

> ssl delete.cert <alias>

Deletes the certificate associated with the alias

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 39 OF 42 ENCINITAS LABS PROPRIETARY 9.9 RSP Commands RSP-9003 Installation & User Guide log.motion.events restart exit.maintenance.mode enter.maintenance.mode rfid-rsp> rsp <tab>

ack.alerts rfid-rsp> rsp <enter>

----------------------------------------------------------------------------------------

USAGE

> rsp ack.alerts Displays and acknowledges current alerts

> rsp enter.maintenance.mode Disconnect from the gateway to allow complete local control

> rsp exit.maintenance.mode Reconnects to the gateway

> rsp restart restarts the sensor platform

> rsp log.motion.events <true,false>

Enables or disables logging of motion events

----------------------------------------------------------------------------------------

9.10 Tag Commands show.summary unload.database rfid-rsp> tags <tab>

show.detail rfid-rsp> tags <enter>

----------------------------------------------------------------------------------------

USAGE

> show.summary Displays a summary of the local tag database tags show.summary

> show.detail Displays tag database details tags show.detail

> unload.database Flushes the contents of the local tag database tags unload.database

----------------------------------------------------------------------------------------

9.11 System Commands rfid-rsp> system <tab>

info rfid-rsp> system <enter>

----------------------------------------------------------------------------------------

USAGE

> system info Displays processor and memory information

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 40 OF 42 ENCINITAS LABS PROPRIETARY 9.12 RFID Test Commands RSP-9003 Installation & User Guide reset.module cw set band.scan random.data rfid-rsp> rfid.test <tab>

get reset.radio rfid-rsp> rfid.test <enter>

----------------------------------------------------------------------------------------

USAGE USAGE

> get rf.power Retrieve the current Forward and Reverse Power rfid.test get rf.power

> get pa.temp Retrieve the current PA Temperature rfid.test get pa.temp

> get mac.error Retrieve the last RFID Module Error Code rfid.test get mac.error

> set mac.command Execute a specific R2000 MAC Command rfid.test set mac.command <command> <sub-command>

> get or set ant.sense.thresh The resistance, specified in ohms, above which the antenna-sense resistance should be considered to be an open circuit rfid.test get ant.sense.thresh

> get or set config The Test Mode Antenna Port Configuration rfid.test get config rfid.test set config <freq(kHz)> <power(dBm)> <port>

> get or set register Access the set of 32-bit firmware registers within the RFID Module rfid.test get register <type> <16-bit address>

rfid.test set register <type> <16-bit address> <32-bit data>

> cw Turn on or off a CW tone on the configured test port rfid.test cw <boolean>

> random.data Turn on or off random data on the configured test port rfid.test random.data <boolean>

> band.scan Turn on or off a band scan on the configured test port (CURRENTLY NOT SUPPORTED) rfid.test band.scan <boolean>

> reset.radio Perform a reset of the embedded RFID module rfid.test reset.radio

> reset.module Perform a reset of the Smart Antenna application rfid.test reset.module

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 41 OF 42 ENCINITAS LABS PROPRIETARY 9.13 RFID Platform Commands RSP-9003 Installation & User Guide set format.oem load.file rfid-rsp> rfid.platform <tab>

get rfid-rsp> rfid.platform <enter>

----------------------------------------------------------------------------------------

USAGE

> get or set device.id The ID of the Embedded RFID Module is an integer 0 - 255 rfid.platform get device.id rfid.platform set device.id <id>

> get firmware.version Show the current RFID Module firmware version rfid.platform get firmware.version

> get or set gpio.config The direction of the RFID Module remote GPIO rfid.platform get gpio.config rfid.platform set gpio.config <bitmask> <direction>

> get or set gpio The value of the RFID Module remote GPIO rfid.platform get gpio <bitmask>

rfid.platform set gpio <bitmask> <value>

> get or set oem.config data Access the set of OEM config items within the RFID Module rfid.platform get oem.config <OEMCfg type>

rfid.platform set oem.config <OEMCfg type> <32-bit value>

> format.oem data Format the OEM Configuration space back to default values rfid.platform format.oem <region> <listen-before-talk>

> load.file oem.config filename Access the set of OEM config items within the RFID Module rfid.platform load.file oem.config <full path to file>

> load.file firmware.update filename Update the RFID Module firmware image rfid.platform load.file firmware.update <test> <full path to file>

----------------------------------------------------------------------------------------

9.14 RFID Query Commands set rfid-rsp> rfid.query <tab>

get rfid-rsp> rfid.query <enter>

----------------------------------------------------------------------------------------

USAGE

> get or set tag.group The Tag Query Group Configuration This configuration defines which group of tags will execute a protocol operation by defining what state their select and session flags must be in. rfid.query get tag.group rfid.query set tag.group <SL state> <session flag> <target state>

> get or set q.algorithm The Q Algorithm Configuration This configuration defines which singulation algorithm is to be used. rfid.query get q.algorithm rfid.query set q.algorithm <algorithm>

> get or set fixed.params The Fixed Q Algorithm Configuration These parameters define the Fixed Q Algorithm behavior. rfid.query get fixed.params rfid.query set fixed.params <toggle> <repeat> <qValue> <retries>

> get or set dynamic.params The Dynamic Q Algorithm Configuration These parameters define the Dynamic Q Algorithm behavior. rfid.query get dynamic.params rfid.query set dynamic.params <toggle> <startQ> <minQ> <maxQ> <adj> <retries>

----------------------------------------------------------------------------------------

REVISION 0.7 PAGE 42 OF 42 ENCINITAS LABS PROPRIETARY