Lyngsoe Systems ADM RFID READER User Manual ADM UserMan
Lyngsoe Systems Ltd. RFID READER ADM UserMan
Users Manual
ADM User Manual - for end users - ADM Technical Description RFID-LSCAN Revision History Table Revision Changes Since Previous Revision Rev1 This is the initial release of the document File: ADM UserMan.doc Status: Rev1 Page 2 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN TABLE OF CONTENTS 1. OVERVIEW 1.1 Main Characteristics 1.2 Physical concept 2. MODES OF OPERATION 3. FUNCTIONAL ARCHITECTURE 3.1 LF Exciter 3.1.1 Operation 3.1.2 Excitation Distance 3.2 UHF Receiver 3.2.1 Receive Distance 3.2.2 Tag message filtration 10 10 10 3.3 GSM Modem 10 3.4 Test Tag 10 3.5 USB Ports 10 3.6 LEDs 3.6.1 Power 3.6.2 Busy 3.6.3 GSM 10 11 11 11 3.7 Power Supply System 3.7.1 Battery pack 3.7.2 Backup battery 11 11 12 4. ENVIRONMENTAL 12 5. REGULATORY 12 File: ADM UserMan.doc Status: Rev1 Page 3 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN LIST OF FIGURES Figure 1 – ADM Concept _____________________________________________________________________ Figure 2 - ADM Assembly ____________________________________________________________________ Figure 3 - ADM Main Unit and Battery Pack _____________________________________________________ Figure 4 – LF Excitation Zone _________________________________________________________________ Figure 5 – Door Slot Installation _______________________________________________________________ LIST OF TABLES Table 1 – Excitation Distance _________________________________________________________________ 9 Table 2 – UHF Receive Distance _____________________________________________________________ 10 Table 3 – Battery Pack Characteristics ________________________________________________________ 11 Table 4 – Backup Battery Characteristics ______________________________________________________ 12 File: ADM UserMan.doc Status: Rev1 Page 4 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN Definition of terms Tag Collection Period The time (typically 24 hours) interval between two consecutives scheduled data SMS transmissions Read Time Table A table that defines the frequency of tag reading cycles within 24 hours SMS Time Table A table that defines the time of the day when the data SMS is sent Tag Registration First read of a tag in a tag collection period Acronyms ADM GSM LOS RTT RTC SIM SMS STT TCP UHF UTC File: ADM UserMan.doc Status: Rev1 Automated Delivery Measurement Global Standard for Mobiles Line-of-Sight Read Time Table Real Time Clock Subscriber Identity Module Short Message Service SMS Time Table Tag Collection Period Ultra High Frequency Coordinated Universal Time Page 5 of 12 Last Update: 9/21/2010 3:49:00 PM ADM 1. Technical Description RFID-LSCAN OVERVIEW ADM is a remote data collection device used to provide accurate last mile mail delivery measurements. The ADM is placed inside a mailbox or above a mail door slot. When a test letter (letter that contain a tag) is placed in the proximity of an ADM, the tag inside the envelope is excited and its unique ID is read. The ID and the time of read are then transmitted to a backend application over the GSM network using SMS. The ADM concept is illustrated in Figure 1. GSM Network Test Letter ADM Test Letter Test Letter Mailbox Backend Application Figure 1 – ADM Concept 1.1 Main Characteristics Overall Dimensions (target) - Length: 185mm (including battery pack) - Width: 85mm - Height: 20mm (with small battery pack) Reader - 433MHz receiver, Integrated antenna - 125kHz transmitter, Integrated antenna GSM Modem - 2-Watt EGSM 900/GSM 850 radio section - 1-Watt GSM 1800/1900 radio section - Integrated antenna Data Backup - USB Flash Drive Digital Interface - Micro B USB receptacle for debug and service console LEDs Power, Busy and GSM File: ADM UserMan.doc Status: Rev1 Page 6 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN Power - Li-Polymer rechargeable cells Environment - IP64 with battery pack - IP20 w/o battery pack - RoHS compliant 1.2 Physical concept The ADM consists of a main unit and a detachable battery pack. The ADM physical concept is illustrated in Figs. 2-3 Figure 2 - ADM Assembly GSM LED Busy Power LED LED Charge LED Main Unit ON/OFF Switch Battery Pack Figure 3 - ADM Main Unit and Battery Pack File: ADM UserMan.doc Status: Rev1 Page 7 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN Main physical characteristics • Push-in push-out (double click) battery pack lock mechanism • ON/OFF slide switch • Reset button 2. MODES OF OPERATION The ADM has two modes of operation: a) normal mode (power saving), b) continuous mode: a) In normal mode, the unit is in sleep most of the time. It wakes-up regularly, based on a Read Time Table (RTT). The RTT specifies the frequency of reads (e.g. every five minutes) during a specific time interval (e.g. 8 hours). The RTT spans over 24 hours. One can define up to eight time intervals in 24 hours; each interval can have a different read frequency. In power saving mode, a read cycle can also be triggered by vibration/shock/motion (if the vibration sensor is enabled). The power saving mode is recommended for mailbox installation. b) In continuous mode, the ADM is on all the time. The exciter generates continuously low power LF field designed to catch test letters that are momentarily in the proximity of the unit. This mode is intended for door slot installations. One can combine power saving mode and continuous mode in the RTT. As an example, an ADM can read tags continuously from 7:00AM to 4:00PM, every 10 minutes from 4:00PM to 9:00PM and no reads from 9:00PM to 7:00AM next day. 3. FUNCTIONAL ARCHITECTURE Essentially, the ADM is a battery powered, active RFID reader equipped with a GSM modem. It performs the following main operations: a) Generates LF excitation field b) Receives UHF signal from tags c) Transmits data and status information over SMS d) Receives configuration command and parameter over SMS 3.1 LF Exciter 3.1.1 Operation The exciter generates the low frequency (LF) field that is used to wake up tags. Once the tag receives the LF signal, it responses on UHF. The excitation signal incorporates a (programmable) unique address (LF field identifier). This LF identifier is received by the tag’s 125 kHz receiver and File: ADM UserMan.doc Status: Rev1 Page 8 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description RFID-LSCAN it is echoed back on UHF. In this way, the RFID system is able to determine which ADM excited the tag. 3.1.2 Excitation Distance Mode of Operation Power saving and continuous normalexcitation modes Continuous lowpower excitation mode Table 1 – Excitation Distance Conditions Min 35cm (see Figure 6) ADM installed on metallic surface, tag in front of the unit (±45 angle), all tag orientations, max. field strength ADM installed on metallic surface, tag parallel to the long side of the ADM, min. field strength Value Typ. Max 5cm (see Figure 7) Metallic surface ADM Excitation distance <35cm Excitation distance >35cm Figure 4 – LF Excitation Zone door ADM mail slot ADM 5cm Figure 5 – Door Slot Installation File: ADM UserMan.doc Status: Rev1 Page 9 of 12 Last Update: 9/21/2010 3:49:00 PM ADM 3.2 Technical Description RFID-LSCAN UHF Receiver The UHF receiver is a narrowband FSK receiver operating in the 433.92 MHz frequency band. 3.2.1 Receive Distance Table 2 – UHF Receive Distance Value Conditions Min Typ. No obstacles, any tag orientation 10m 3.2.2 Max Tag message filtration Only the first read of a tag in a TCP is stored (“tag registration”). However, the ADM can be programmed to also store the last read of a tag in a TCP (i.e. last time the tag was read prior to be removed from the mail box). In the event a tag is removed before the second read cycle in a TCP, the two registrations are identical. This feature is not applicable in continuous mode. Tag registrations are collected in a non-volatile buffer (“tag buffer”). The tag buffer can store up to 60 registrations. After the capacity of the tag buffer is reached, new registrations are ignored. 3.3 GSM Modem The ADM communicates with the server (backend) over the GSM network using SMS. It sends data and unit status information and receives configuration commands and parameters. The operating frequencies in GSM, DCS and PCS modes are conform to the GSM specifications. The GSM modem uses an 880~960MHz, 1710~1990 MHz, 0dB Gain integrated antenna. The GSM modem supports phase 2 GSM11.14 – SIM 1.8V and 3V. The SIM card reader allows for hot removal of the SIM. 3.4 Test Tag The ADM integrates a test tag used to monitor unit’s health. The test tag consists of a low power UHF transmitter, a LF (125kHz) receiver and a microcontroller. The test tag is powered on once a day. After that, it receives the ADM LF field. Once excited, the test tag transmits a burst of 40 identical messages pseudo-randomly spaced in time. These messages are received by ADM’s 434 MHz receiver and processed like any other messages. Their presence confirms that the ADM is functioning properly even if no other messages from other tags are registered. 3.5 USB Ports The ADM has two USB ports: a host port and a slave port. The USB ports are not accessible in normal operation. One has to remove the battery pack in order to have access to the two ports. The two ports are only for debug and service and should not be used by the end user. 3.6 LEDs The main unit is equipped with three LEDs: Power, Busy and GSM. They are normally off and are only activated for 20 seconds each time when the battery pack is inserted or removed. File: ADM UserMan.doc Status: Rev1 Page 10 of 12 Last Update: 9/21/2010 3:49:00 PM ADM Technical Description 3.6.1 RFID-LSCAN Power When activated, the power LED is solid white if the power system is OK. If an uncharged battery pack is inserted, the power LED flashes 3 times/second (provided that the internal battery is not discharged as well). 3.6.2 Busy When activated, the busy LED (blue) is on while the unit is busy (e.g. booting, reading tags, sending and receiving SMS). 3.6.3 GSM When activated, the GSM LED indicates the quality of the GSM signal: • • If the GSM signal is strong enough, the LED is green If the GSM signal is unavailable or marginal, the LED is red The GSM signal quality information is only collected during SMS operation and therefore the indication accuracy depends on how long the unit has been in operation. 3.7 Power Supply System The ADM is powered by Li-Polymer rechargeable cells. The main power source is the external battery pack. The secondary source is a backup battery, built inside the main unit. The battery pack powers the ADM circuitry and at the same time charges the backup cell. The ADM works properly even if the backup battery is fully discharged, as long as the battery pack is connected and not depleted. The user only needs to charge the battery pack. 3.7.1 Battery pack The battery pack has two ports: a charging port (micro-B USB receptacle) and a load port (battery contacts). The battery pack can be recharged from a dedicated charger or a PC USB port. The battery pack has an LED to indicate the charging status: • LED is red while charging • LED turns green when the pack is fully charged • LED goes off when the charger is disconnected Table 3 – Battery Pack Characteristics Parameter Battery Life Charge Time Recharge Cycles Charge Temperature Storage File: ADM UserMan.doc Status: Rev1 Conditions Power saving mode, excitation every 5min, one SMS/day, max. LF field Continuous mode, one SMS/day, min. field strength 1A charging current Min 28 days Max 7 days 4 hours 500 0C 1 year Value Typ. -20 C +45 C +45 C Page 11 of 12 Last Update: 9/21/2010 3:49:00 PM ADM 3.7.2 Technical Description RFID-LSCAN Backup battery The main unit is equipped with a backup battery that allows the unit to continue operate for a limited time without the battery pack. The backup cell is only used when the battery pack is depleted or not connected. Table 4 – Backup Battery Characteristics Conditions Min Power saving mode, 3 days excitation every 5min, one SMS/day, max. LF field Battery Life (per charge) Continuous mode, one 16 hours SMS/day, min. field strength Parameter Recharge Cycles Charge Temperature Storage 4. 300 0C -20 C 1 year Max +45 C +45 C ENVIRONMENTAL • • • 5. Value Typ. Operating temperature range: -20 C - +60 C (except USB flash drive) Storage temperature range: -20 C - +45 C (1 year) Drop test: 1m drop on concrete surface, no structural and functional damage REGULATORY FCC compliance notice Caution: Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 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: —Reorient or relocate the receiving antenna. —Increase the separation between the equipment and receiver. —Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. —Consult the dealer or an experienced radio/TV technician for help. IC compliance This Class B digital apparatus complies with Canadian ICES-003. 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. File: ADM UserMan.doc Status: Rev1 Page 12 of 12 Last Update: 9/21/2010 3:49:00 PM
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