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CelloTrack Solar
/ LV500 Overview Proprietary and Confidential Version 1.1 Revised and Updated: August 10, 2020 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Legal Notices IMPORTANT 1. All legal terms and safety and operating instructions should be read thoroughly before the product accompanying this document is installed and operated. 2. This document should be retained for future reference. 3. Attachments, accessories or peripheral devices not supplied or recommended in writing by Pointer Telocation Ltd. May be hazardous and/or may cause damage to the product and should not, in any circumstances, be used or combined with the product. General The product accompanying this document is not designated for and should not be used in life support appliances, devices, machines or other systems of any sort where any malfunction of the product can reasonably be expected to result in injury or death. Customers of Pointer Telocation Ltd. using, integrating, and/or selling the product for use in such applications do so at their own risk and agree to fully indemnify Pointer Telocation Ltd. for any resulting loss or damages. Warranty Exceptions and Disclaimers Pointer Telocation Ltd. Shall bear no responsibility and shall have no obligation under the foregoing limited warranty for any damages resulting from normal wear and tear, the cost of obtaining substitute products, or any defect that is (i) discovered by purchaser during the warranty period but purchaser does not notify Pointer Telocation Ltd. Until after the end of the warranty period, (ii) caused by any accident, force majeure, misuse, abuse, handling or testing, improper installation or unauthorized repair or modification of the product, (iii) caused by use of any software not supplied by Pointer Telocation Ltd., or by use of the product other than in accordance with its documentation, or (iv) the result of electrostatic discharge, electrical surge, fire, flood or similar causes. Unless otherwise provided in a written agreement between the purchaser and Pointer Telocation Ltd., the purchaser shall be solely responsible for the proper configuration, testing and verification of the product prior to deployment in the field. POINTER TELOCATION LTD.S SOLE RESPONSIBILITY AND PURCHASERS SOLE REMEDY UNDER THIS LIMITED WARRANTY SHALL BE TO REPAIR OR REPLACE THE PRODUCT HARDWARE, SOFTWARE OR SOFTWARE MEDIA (OR IF REPAIR OR REPLACEMENT IS NOT POSSIBLE, OBTAIN A REFUND OF THE PURCHASE PRICE) AS PROVIDED ABOVE. POINTER TELOCATION LTD. EXPRESSLY DISCLAIMS ALL OTHER WARRANTIES OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, SATISFACTORY PERFORMANCE AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL POINTER TELOCATION LTD. BE LIABLE FOR ANY INDIRECT, SPECIAL, EXEMPLARY, INCIDENTAL OR CONSEQUENTIAL DAMAGES (INCLUDING WITHOUT LIMITATION LOSS OR INTERRUPTION OF USE, DATA, REVENUES OR PROFITS) RESULTING FROM A BREACH OF THIS WARRANTY OR BASED ON ANY OTHER LEGAL THEORY, EVEN IF POINTER TELOCATION LTD. HAS BEEN ADVISED OF THE POSSIBILITY OR LIKELIHOOD OF SUCH DAMAGES. CelloTrack Solar - LV500 Overview.docx Page 2 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Intellectual Property Copyright in and to this document is owned solely by Pointer Telocation Ltd. Nothing in this document shall be construed as granting you any license to any intellectual property rights subsisting in or related to the subject matter of this document including, without limitation, patents, patent applications, trademarks, copyrights or other intellectual property rights, all of which remain the sole property of Pointer Telocation Ltd. Subject to applicable copyright law, no part of this document may be reproduced, stored in or introduced into a retrieval system, or transmitted in any form or by any means
(electronic, mechanical, photocopying, recording or otherwise), or for any purpose, without the express written permission of Pointer Telocation Ltd. FCC & IC Compliance Statement The FCC Wants You to Know 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 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:
a) Reorient or relocate the receiving antenna. b) Increase the separation between the equipment and receiver. c) Connect the equipment to an outlet on a circuit different from that to which the receiver is connected. d) Consult the dealer or an experienced radio/TV technician This device complies with FCC Rules Part 15:
Operation is subject to two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference that may be received or that may cause undesired operation. CelloTrack Solar - LV500 Overview.docx Page 3 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference that may be received or that may cause undesired operation. Le present appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisee aux deux conditions suivantes :(1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioelectrique subi, meme si le brouillage est susceptible d'en compromettre le fonctionnement. Modifications not expressly approved by the manufacturer could void the user authority to operate the equipment under FCC Rules. Warning A distance of at least 20 cm. between the equipment and all persons should be maintained during the operation of the equipment. Une distance d'au moins 20 cm. entre l'quipement et toutes les personnes devraient tre maintenues pendant le fonctionnement de l'quipement Copyright 2020. All rights reserved. CelloTrack Solar - LV500 Overview.docx Page 4 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Table of Contents 1 Introduction .............................................................................................................. 7 About this Document .................................................................................................... 7 Abbreviations .............................................................................................................. 7 References .................................................................................................................. 7 Revision History ........................................................................................................... 8 LV500 versus CelloTrack Solar ....................................................................................... 8 The CelloTrack Solar Overview .................................................................................. 9 Overview..................................................................................................................... 9 Highlights .................................................................................................................... 9 The CelloTrack Solar Description ............................................................................. 11 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 3.2.1 3.2.2 3.2.3 3.2.4 CelloTrack Solar Interfaces .......................................................................................... 11 CelloTrack Solar Connector .................................................................................. 11 CelloTrack Magnetic Button and LEDs .................................................................... 11 COMM Led Overview ........................................................................................... 11 Cellular Network Monitoring Zone ......................................................................... 12 GNSS Monitoring Zone ........................................................................................ 13 User Features ............................................................................................................ 14 Activation .......................................................................................................... 14 De-Activation ..................................................................................................... 14 Panic/Distress .................................................................................................... 14 Battery Status Manual Check ............................................................................... 15 BLE Functionality ........................................................................................................ 15 MultiSense and MultiSense-TH ..................................................................................... 16 CelloTrack Feature List ................................................................................................ 16 CelloTrack Operational States ................................................................................. 18 Not Activated State .................................................................................................... 18 Hibernation State ....................................................................................................... 18 Glancing ............................................................................................................ 19 Specific Time Glancing......................................................................................... 20 Not Live Tracking ................................................................................................ 20 Tracking State ........................................................................................................... 21 Live Tracking ...................................................................................................... 22 Tracking with GNSS Peeking ................................................................................ 22 Offline Tracking .................................................................................................. 23 Improved (Take Location) Tracking Mode .............................................................. 24 BOD/EOD Tracking Mode ..................................................................................... 24 Radio-Off .................................................................................................................. 25 4.2.1 4.2.2 4.2.3 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 1.1 1.2 1.3 1.4 1.5 2 2.1 2.2 3 3.1 3.2 3.3 3.4 3.5 4 4.1 4.2 4.3 4.4 CelloTrack Solar - LV500 Overview.docx Page 5 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 4.5 5 6 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 Motion Detection ........................................................................................................ 25 CelloTrack solar Specifications ................................................................................ 27 CelloTrack Release Package .................................................................................... 30 6.1.1 6.1.2 Evaluation Suite ......................................................................................................... 30 Communication Center ........................................................................................ 30 Cellocator Programmer ........................................................................................ 30 Integration Package (Cellocator GW) ............................................................................ 31 Cellocator Wireless Communication Protocol .................................................................. 31 Cellocator Integration Package Manual .......................................................................... 31 Evaluation Suite Manual .............................................................................................. 31 Cellocator Programmer Manual .................................................................................... 32 Integration Manual ..................................................................................................... 32 Training Presentation .................................................................................................. 32 Battery power calculator ............................................................................................. 32 CelloTrack Solar - LV500 Overview.docx Page 6 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 1 Introduction 1.1 About this Document This document provides a brief overview of the CelloTrack Solar / LV500 and its accessories. It includes descriptions of the CelloTrack variants, CelloTrack special features and modes of operation, battery life tables and technical specifications. This document describes the high-level system features and capabilities of the CelloTrack Solar. For further details about MultiSense devices, the other main component of the CelloTrack Solar solution, refer to the MultiSense Product Overview.
NOTE: The LV500 is a brand product identical to the CelloTrack Solar. Thus, referring to or mentioning the CelloTrack Solar, includes also the LV500 as well, unless specifically explained.
1.2 Abbreviations Abbreviation Description Front Button FB GSM GPS GNSS OTA SMS IP AH 3D LED APS GPIO Global System for Mobile communications Global Positioning System Global Navigation Satellite System Over the Air Short Message Service (GSM) International Protection Rating Amper Hour 3 Dimensions Light Emitted Diode Automatic Power Save (modem feature) General Purpose Input / Output 1.3 References
# Reference Description 1 2 3 4 CelloTrack Solar Brochure Cellocator Wireless Communication Protocol Cellocator Cello Programming Manual Cellocator Serial Communication Protocol CelloTrack Solar - LV500 Overview.docx Page 7 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 1.4 Revision History Version Date Description 1.0 1.1 September 10, 2019 Initial release August 10, 2019 Adding the LV500 Brand:
Note in section 1.1 Section 1.5 1.5 LV500 versus CelloTrack Solar The LV500 is a brand product identical to the CelloTrack Solar. Thus, referring to or mentioning the CelloTrack Solar, includes also the LV500 as well, unless specifically explained. CelloTrack Solar - LV500 Overview.docx Page 8 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 2 2.1 Overview The CelloTrack Solar Overview Cellocator's CelloTrack Solar is designed for advanced asset tracking and asset management applications, and provides enhanced functionality, ease of installation and support for a wide range of applications: target applications include inventory management throughout short/mid-term Track & Trace, shipment and distribution management, security (anti-theft), protection (anti-vandal, break-in detection) and more. The capabilities provided by the CelloTrack Solar can greatly reduce an enterprise's financial losses incurred as a result of the often-difficult task of successfully tracking and remotely managing the location, usage profile and security aspects of unpowered but mobile transportation equipment. This equipment includes trailers, containers, train wagons or any kind of valuable mobile asset such as electricity generators, heavy machinery, chemical toilets and waste containers. The CelloTrack LTE unit can interface via a short-range RF link to multiple MultiSense devices, which acts as a Wireless Sensors Network (WSN). Read more about MultiSense devices in the MultiSense and MultiSense-TH section. The unit also provides a durable and long-life solution that supports up to 10 years of continuous operation (single GNSS readings and Cellular transmissions per day). The unit supports the required 4G network standards for NA and supports all the major service providers and their affiliates, such as AT&T, T-Mobile, Telus and Rogers. It supports also the EU networks. Based on Cello and CelloTrack technologies, the CelloTrack Solar supports similar tracking, communication, GNSS location-based features and maintenance capabilities as per those available in the Cello and CelloTrack families. 2.2 Highlights CelloTrack Solar main features include:
Stand-alone tracking device; it can be installed and operated for long periods without a power supply. Houses all components in the same enclosure, including primary battery, solar based power system, GNSS positioning engine, cellular modem and antennas. Highly rugged durable enclosure, fit to container ribs and ceiling, and comply with IP67 and IP69k weatherproof casing for outdoor long-life service. Long operation time (up to 10 years @ 1 transmission / day) via 34 Ah primary battery and solar based power system. Purpose-built for minimum idle current consumption during hibernation. Supports NA and EU 4G LTE networks with user equipment category CAT 1. Scalable cellular communication technology; it can support any cellular network supported by the chosen modem family. SiRFstarV based GPS and GLONSS positioning engine for reduced acquisition time and better accuracy. Supports a Wireless Sensor Network and up to 16 MultiSense devices. A 3D accelerometer that detects crashes (accidents), movement and vibrations of assets and enables different transmission policy for a moving asset and a standing asset. CelloTrack Solar - LV500 Overview.docx Page 9 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview A programmable (on/off/test/panic) magnetic button. Two monitoring LEDs for communication and system status indication. an internal USB connector for programming and maintenance (RMA and debugging) Easy (single step) mounting using four screws. Magnetic tampering detection Operating temperature range: -30C to 75C. Environment requirements (shock, temperature, humidity, UV, chemical, salt, etc.) compliance. Supports up to 9000 time-stamped events. Supports a variety of reporting transmission profiles to meet required transmissions and power budget. Supports OTA FW upgrade (FOTA). Designed for operation with minimal maintenance. CelloTrack Solar - LV500 Overview.docx Page 10 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 3 The CelloTrack Solar Description 3.1 CelloTrack Solar Interfaces 3.1.1 CelloTrack Solar Connector The CelloTrack utilized internal USB connector for maintenance, code upgrade and configuration update. 3.1.2 CelloTrack Magnetic Button and LEDs The Magnetic Button allows activation/de-activation and battery status check. The SYS LED is a dual color (Green and Red) LED, which indicates unit activation/de-activation, panic, and battery status. The COMM LED is a dual color (Green and Red) LED, which indicates the units cellular communication and position status. The Magnetic Button and SYS LED behavior are explained in the User Features section below. 3.1.3 COMM Led Overview The COMM LED is used to indicate unit cellular communication and position with a green light. The blinking pattern is constructed from cycles of 2 blinking zones each, which will be repeated by the unit continually. The first zone represents the functionality of cellular communication (GSM), the second zone the GNSS status. Each zone lasts 3 seconds with 1 second of LED off interval between them. 5 seconds LED off interval separates between each cycle. CelloTrack Solar - LV500 Overview.docx Page 11 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 3.1.4 Cellular Network Monitoring Zone Status GSM Off Not registered to GSM/No SIM Blinking pattern Off Registered in Home GSM network
(not attached to GPRS) Registered in Roaming GSM network
(not attached to GPRS) Attached to GPRS/home CelloTrack Solar - LV500 Overview.docx Page 12 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Status Blinking pattern Attached to GPRS/roaming 3.1.5 GNSS Monitoring Zone Blinking pattern Off Status GNSS Off GNSS is unplugged/faulty GNSS communicating, but not navigating GNSS is in navigation mode CelloTrack Solar - LV500 Overview.docx Page 13 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview GNSS is in GYRO mode
(only for compatible models) Note: To save energy, the COMM LED performs only 10 indications cycles (total time 120 seconds) upon unit activation and/or upon unit reset, and is then shut off. 3.2 User Features 3.2.1 Activation When the unit is not active, upon pressing the front button for 5 seconds (long press), the unit is activated. The SYS LED lights for 5 seconds in Green, to indicate that the unit is active. The COMM LED performs 10 GSM/GPS indication cycles, and then is shut off. Note that after battery replacement, the unit is automatically activated, i.e. with no need of activation by button as described above. After automatic activation, the SYS LED behaves as described above.
NOTE: Consecutive presses are ignored, if started before the SYS LED indication of the previous press/sequence ended.
3.2.2 De-Activation When the unit is active, upon pressing the front button for 5 seconds (long press), the unit is de-activated. The SYS LED shall light for 5 seconds in Red, to indicate that the unit is not active. For enabled logged or distress events, the de-activation is postponed until the events are transmitted (or until Modem Max On Time expiration). In the postponed time, the SYS LED blinks (200msec on every 1 second) in Red.
NOTE: Consecutive presses are ignored, if started before the SYS LED indication of the previous press/sequence ended.
3.2.3 Panic/Distress When the unit is active, upon pressing the front button for a period of between 0 and 5 seconds (short press), a panic/distress press is recognized. The SYS LED then reflects the battery SOH (State of Health):
If the SOH is above the preprogrammed minimum - the SYS LED lights for 2 seconds in Green. If the SOH is below (or equal to) the preprogrammed minimum - the SYS LED lights for 2 seconds in Red. CelloTrack Solar - LV500 Overview.docx Page 14 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview
NOTE: Consecutive presses are ignored, if started before the SYS LED indication of the previous press/sequence ended.
3.2.4 Battery Status Manual Check A maintenance operator can manually check the battery status. When the unit is active, the maintenance operator can perform a panic/distress event by pressing the front button for a period of between 0 and 5 seconds (short press). The SYS LED then reflects the battery SOH (State of Health):
If the SOH is above the preprogrammed minimum - the SYS LED lights for 2 seconds in Green. If the SOH is below (or equal to) the preprogrammed minimum - the SYS LED lights for 2 seconds in Red. 3.3 BLE Functionality The method of communication between the CelloTrack and MultiSense devices is BLE
(Bluetooth Low Energy) 2.4 GHz short range low energy wireless communication. This method of communication is intended to provide considerably reduced power consumption, footprint and cost, with these three parameters the most important values within the IoT world.
NOTE: BT SIG certification is currently in the product evolution process.
Using BLE, the CelloTrack can communicate with up to 16 MultiSense devices in a Master and Slave type setup. However, in order to function correctly as a WSN, the CelloTrack unit and MultiSense devices must be paired, as described on page 16. Using CelloTrack and paired MultiSense devices as a local WSN enables you to leverage an environment, within which you can sense where different measurements are expected such as inside cooled cargo boxes, or in a long trailer where the environmental conditions inside the trailer may be different from those closer to the door. Another form of communication between the CelloTrack and MultiSense devices is via transparent (guest) mode. In this mode, no pairing process is required and thus the CelloTrack unit does not manage or save MultiSense device data or thresholds. As a result, in transparent mode the CelloTrack unit can be used as a gateway to unlimited MultiSense devices. In situations where only MultiSense MAC addresses are required, Tag mode (similar to iBeacon mode) can be activated. For further information about the configurable BLE parameters, refer to the Programming Manual. CelloTrack Solar - LV500 Overview.docx Page 15 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 3.4 MultiSense and MultiSense-TH The MultiSense is a remote peripheral sensor, communicating and configured by the CelloTrack unit via a short-range RF link. There are 2 models of MultiSense: regular devices that can measure temperature called "MultiSense", and "MultiSense-TH" devices which have a combined temperature and humidity sensor. The MultiSense device has the following sensors:
Temperature sensor Humidity sensor (only in the MultiSense-TH model) Hall effect magnetic sensor Ambient Light Sensor (ALS) Accelerometer sensor The CelloTrack unit supports up to 16 fully programmable MultiSense devices. If "Guest mode" is enabled (via the Guest and Tag MultiSense reporting parameter), the unit will also connect with MultiSense units not in its list, read their sensors and pass the data (in raw format) to the server. Only listed MultiSense units also get configuration blocks and their readings are fully processed by the CelloTrack unit. If "Tag mode" is enabled, the CelloTrack unit will only report on existence (reception of advertisements) of unpaired MultiSense units, not reading their sensors. MultiSense devices can be paired with the unit by entering the MultiSense MAC address, which is written on the MultiSense, in the MultiSense Editor window accessed via the Cellocator Programmer. 3.5 CelloTrack Feature List The following list details the features and capabilities of the CelloTrack family. These features are actually a combination of the Fleet management capabilities derived from Cellocators Cello product line and specific asset management capabilities designed solely for the CelloTrack family. Geo-Fences (100) Way Points Roaming List (100) CelloTrack Solar - LV500 Overview.docx Page 16 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Usage counters (PTO) Server authentication Automatic SIM PIN lock DNS support Virtual odometer Road curve smoothing Offline Tracking Wake up event Movement detection Crash detection Time based events (adaptive to movement status) Specific time (in day) reporting Distance based events Velocity Adaptive message rate Home/Roam adaptive message rate Distress reporting mode (higher priority) Over speeding alerts Go/Halt reports Internal excessive temp A/D threshold events Frequency threshold events GNSS status events Watchdog Battery level reporting Network dependent traffic Opt Cellocator+ (Maintenance) server support OTA/Serial Firmware upgrade OTA/Serial configuration update Nested Output activation Gradual Output activation Programmed Output activation
NOTE: Cell-ID and jamming detection are not supported due to modem limitations.
CelloTrack Solar - LV500 Overview.docx Page 17 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 4 CelloTrack Operational States The CelloTrack unit operates in one of the following three operational states:
Not Activated State (for storage and battery conservation) Hibernation State Tracking State (fully operational) Each operational state is comprised of a number of operational modes. There is an additional BOD/EOD Tracking Mode that the CelloTrack unit can be programmed to support. 4.1 Not Activated State The Not Activated operational state enables storage of a fully assembled unit
(including battery connection and SIM card insertion) but prevents unnecessary battery drainage and self-discharging. This state is designed for maximum battery conservation and can prove especially useful, for example, when transporting multiple pre-installed units to an installation plant. When the CelloTrack unit is in the Not Activated state, it remains in sleep mode most of the time. Once per second, however, it exits sleep mode, checks for an activation attempt by checking whether the front button and/or temper switch is depressed, and returns to sleep (assuming the main button is not depressed). In this state, the unit does not respond to input triggers, nor does it perform or react to Motion Detection, and the units GNSS and GSM modules remain unpowered. Entering this state: Upon Deactivation Procedure Leaving this state: Upon Activation Procedure 4.2 Hibernation State When the CelloTrack unit is in the Hibernation state, it remains in sleep mode most of the time and awakens once per second to check for inputs, button state changes, and motion. Typically, the Hibernation state is used for asset or cargo tracking, when maximum battery life is the primary consideration and infrequent updates are sufficient. In addition to checking inputs, button state changes, and motion once per second, the CelloTrack unit awakens periodically, powers up all its modules, communicates with the server, and transmits a unit location update. This is known as glancing (see the following section). The Hibernation state employs a number of modes and functionalities, as shown in the following table. Mode Description Sleep For battery conservation. Sensor checking Once per second. Glancing Occurs periodically or at a specific time of day; refer to the following Glancing section. Offline tracking data upload session If offline tracking is enabled, the unit transmits all messages collected during the trip at the end of the trip
(and after a preprogrammed time has elapsed). Refer to the Offline Tracking section. CelloTrack Solar - LV500 Overview.docx Page 18 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Mode Maintenance server sessions Not live tracking Description The unit periodically connects to a maintenance server for firmware and configuration upgrades. Typically this is done once per day. The unit never enters the Tracking state, but does, however, send start and stop messages when movement is detected or ends. Refer to the Live Tracking section. During Hibernation, GPRS messages are not received by the unit and not stored in the cellular network thus they are lost. However, SMS messages that are sent by the system are received by the unit during glancing. 4.2.1 Glancing The periodical wake up and location update process is known as glancing. During glancing, the unit is fully operational, the GSM and GNSS modules are powered up
(when the GNSS is powered the navigation SYS LED blinks every 2 seconds), and the RS232 port is operational. By default, glancing occurs according to a configurable time period. Alternatively, you can configure glancing to occur at a specified time of the day (see the Specific Time Glancing section) or enable both modes. If both modes are enabled they are maintained in parallel and independently. The glancing frequency depends on the following two periods (for more information, refer to the CelloTrack Programming Manual):
The glancing duration (programmable). The sleep period between location updates this is dependent on whether the unit is in motion. This combination is known as adaptive glancing frequency. The GNSS module remains active until a successful GNSS acquisition occurs or until the dedicated GNSS timeout expires. The GSM module is activated for a pre-programmed time. When this ends, the next glancing cycle begins. Thus it is the GSM duration which actually defines the duration of the glancing cycle. Typically, the GSM duration must be no shorter than two minutes in order to accomplish GSM registration, GPRS dial up, and reception of SMS commands sent from the back end application during Hibernation. 30 seconds before the end of glancing, the unit sends an update message and the GNSS data. If GNSS acquisition fails during the current glancing session, the last known GNSS data is sent. This message can either be sent as a regular event and/or configured as a distress session. CelloTrack Solar - LV500 Overview.docx Page 19 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview The following figure shows the stages of glancing. GPRS Dial up A successful glancing event is generated GSM Registration 30 seconds GSM GNSS t t Glancing begins GPS has successfully accomplished an acquisition or the GPS timeout has expired Glancing ends 2 minutes minimum The current consumption in glancing depends on the distance to the GSM communication base and communication network conditions. If there is a GSM registration fault, the modem is switched off before the programmed time in order to conserve power. The glancing event messages that were not transmitted are stored in the units message queue for the next glancing session (if storing to memory is enabled). 4.2.2 Specific Time Glancing Glancing can be configured to occur at a specific time of the day to enable the reception of status updates from all the units of the fleet concurrently. To prevent communication server overload due to multiple simultaneous transmissions, a randomization algorithm is implemented: when the appointed time arrives, each unit calculates a random time offset and transmits its update. The result is that all the transmissions are grouped around the specified time, some before, some after.
NOTE: Specific Time Glancing can only be enabled if the GNSS has acquired a valid fix
(location and time) at least once in the past. If the unit is not in the Hibernation state when the specified time occurs (for example, it is in the Tracking state), the glancing message is still transmitted.
4.2.3 Not Live Tracking In Not Live Tracking the unit does not enter the Tracking state; however, it sends start and stop messages when motion is detected or ends. CelloTrack Solar - LV500 Overview.docx Page 20 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview If both Not Live Tracking and Motion Detection are enabled, and the unit is in the Hibernation state, then when motion is detected the unit immediately opens a distress session, sends a start motion message, and returns to Hibernation. When no further motion is detected, the unit opens a distress session, sends a stop motion message, and returns to Hibernation. This is known as start-stop reporting during Hibernation. 4.3 Tracking State By default, the unit is configured to enter the Tracking state when motion is detected and to exit Tracking when motion ends. This is done to conserve battery power. Motion not detected Hibernation Tracking Motion detected In the Tracking state the unit does the following:
Powers up its GNSS module. Powers up its GSM module. Sends regular location updates to the server. Provides full CelloTrack functionality, including: periodical and distance events, geo-fence related events, speed related events, and maintenance events. Activates its interfaces. In the Tracking state, the unit provides the best tracking and communication features, generates time/location updates (known as time events), and behaves as a standard fleet management oriented unit. This is the most energy-intensive state. CelloTrack Solar - LV500 Overview.docx Page 21 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview You can configure the unit to work in one of the following tracking modes, and which are described in the following sections:
Live Tracking Tracking with GNSS Peeking Offline Tracking Improved (Take Location) Tracking Mode BOD/EOD Tracking Mode 4.3.1 Live Tracking The unit is fully active and sends periodic updates to the server. This is not the default tracking mode. 4.3.2 Tracking with GNSS Peeking This tracking mode is similar to live tracking but uses less battery power: the GNSS module operates in peeks just before each time event (instead of permanent activation) and only if:
Time events are enabled and the time event interval is longer than 90 seconds. One valid GNSS fix has already been set. The GNSS module is switched off immediately after the time event message is generated. CelloTrack Solar - LV500 Overview.docx Page 22 of 32 Copyright 2020 by Pointer Telocation, Ltd. Start Event CelloTrack Solar / LV500 Overview Time Event Time Event Time Event TE Timeout Commun-
ication GPS Power t t GPS Fix received Programmable time
(60 sec by default) 4.3.3 Offline Tracking Auto Upload In this tracking mode the unit collects all updates during a trip and sends them all together at the end of the trip (the GNSS remains active). When motion is detected and offline tracking has been enabled, the unit powers up its modem and sends a start motion update. The unit then powers down its modem (the modem is a major current consumer) and generates and saves status updates until the end of motion is detected
(end of trip). It then powers up its modem again and sends all the interim messages to the server in a single transmission. This transmission session is known as Offline tracking data upload session which is one of the Hibernation state modes as explained in the Hibernation State section. CelloTrack Solar - LV500 Overview.docx Page 23 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 4.3.4 Improved (Take Location) Tracking Mode This mode is based on the not-live-tracking mode and allows the unit to add and log extra locations between transmissions. Since the entire system is hibernating most of the time, the battery life is prolonged. In this mode, the unit behaves as follows:
Checks power lines, button state changes, motion and MultiSenses (if programmed to) once per second and logs them efficiently. Looks for distress (critical) events
(such as tamper, sensor reading crossed some predefined critical threshold) to report them immediately. Takes GNSS locations extra configurable times a day and logs them internally as Type-0 and/or Type-11 with the same message but encapsulated. GNSS and cellular modems are also activated upon distress event occurrences to immediately report the position of the event. A transmission is sent even if the GNSS has not got a fix after the timeout. If no fix is reached the Cell-ID transmission logic is used. The GNSS module is shut down, disregarding any applicative constraints to preserve energy. Turns on the cellular modem, at configurable times, and transmits the logged messages, including the logged positions, measurements and events, to the server. For all cellular transmissions, the entire log memory is transferred/uploaded, and then cleared upon an ACK from the server. At all other times, the unit is sleeping (hibernating). Unit Take Location interval Unit Take Location interval 4.3.5 BOD/EOD Tracking Mode The CelloTrack unit can be programmed to support the BOD (Beginning of Day)/EOD (End of Day) Tracking mode. This mode enables reporting on the leaving of the pick-up location (BOD) and arriving to the destination location (EOD), supporting a minimal number of transmissions. To support this mode, the unit maintains the BOD (BOD was recognized) /EOD (EOD was recognized) states; the last EOD location is also kept. The unit uses the accelerometer for movement detection. The unit can be programmed to communicate periodically with the MultiSense devices and log the sensor states. The reporting policy of the BOD/EOD Tracking Mode is as follows:
Upon movement detection (short time) start event is logged. CelloTrack Solar - LV500 Overview.docx Page 24 of 32 Copyright 2020 by Pointer Telocation, Ltd. GSM periodic glancing GNSS peeking
(legacy) GNSS peeking
(improved modes) Nano take location interval Nano take location interval Extra GNSS peeks and log it CelloTrack Solar / LV500 Overview If the movement continues for more than the programmed time and the distance from the latest known EOD location is larger than the programmed value the BOD is detected. The unit transmits a BOD message as well as all logged messages. During the trips, short stops generate stop and start events which are logged. When movement is stopped for more than the programmed time - EOD is detected. The unit transmits an EOD message as well as all logged messages and keeps the EOD (destination) location for the next BOD detection. The unit can be programmed to take locations and log the messages periodically according to a programmable time on each trip (BOD state). The unit also supports the entering and exiting Theft Mode (Periodic Glancing), which can be activated by OTA command. On Periodic Glancing the unit performs full glancing (GPS, Modem) according to the period defined in the OTA command. 4.4 Radio-Off The unit enters Radio-Off mode when the CelloTrack battery voltage falls below 3.4 volts for 30 consecutive seconds. When this happens, the unit initiates the following:
A Radio-Off event is generated and logged. All log history is saved to nonvolatile memory. The cellular modem and GNSS are turned off. The unit does not send messages until power is resumed. These actions ensure the integrity of the logged history and facilitate a smooth restart when power is reapplied. The unit exits Radio-Off mode and resumes tracking when the battery voltage exceeds 3.5 volts for 30 consecutive seconds. 4.5 Motion Detection In CelloTrack units, Motion Detection is used to detect the unit movement; the ignition signal is not required for asset tracking. Motion is detected via the units built-in accelerometer, which only operates when Motion Detection is enabled. Two seconds of continuous accelerometer motion is recognized by the unit as valid motion detection. When motion is detected continuously for a preprogrammed duration (typically two seconds from the initial valid motion detection), the unit reports a start event, which indicates engine-on/movement. Two seconds of continuous lack of accelerometer motion is recognized by the unit as a valid lack of motion detection. When lack of motion is detected continuously for a preprogrammed duration (typically 40 seconds from the initial valid lack of motion detection), the unit reports a stop event, which indicates end of movement. CelloTrack Solar - LV500 Overview.docx Page 25 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview Motion Accelerometer
"Ignition" input Motion Detected Ignition Off Programmable Filter 2sec 2sec Operational Mode Engine On Ignition On Programmable Filter t t t t
NOTE: Motion Detection is operable when the unit is in any state other than Not Activated.
CelloTrack Solar - LV500 Overview.docx Page 26 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 5 CelloTrack solar Specifications Cellular communication LTE Cat 1 NA with 3G Fallback Communication LTE NA: Bands 2, 4, 5, 12 (700, 850, 1700/2100 (AWS), 1900 MHz), data rates: 10.2[DL] / 5.2[UL] Mbps 3G NA: UMTS Bands 5, 4, 2 (850, 1700/2100
(AWS), 1900); HSPA 5.76[UL]/7.2[DL]
Mbps LTE Cat 1 EU with 3G and 2G Fallback LTE EU: Bands 1, 3, 8, 20. 28 (700, 800, 900, 1800, 2100 MHz), data rates: 10.2[DL]
/ 5.2[UL] Mbps 3G EU: UMTS Bands 1, 8 (900, 2100 MHz);
HSPA 5.76[UL]/7.2[DL] Mbps 2G EU: GSM 900, 1800 MHz; GPRS:
24[UL]/48[DL] Kbps Packet Data: TCP/IP, UDP/IP SMS: PDU mode SIM Internal, Micro sim replaceable, 1.8/3V Antenna Internal, multi band antenna Optional SIM on chip Remote PIN code management GNSS Technology Internal module, SiRFstarV based GPS and GLONSS supported. Sensitivity (tracking)
-165dBm Acquisition (normal) Cold <27 Sec, Warm<10 Sec, Hot<1 Sec Antenna Internal, on board patch antenna COM port Internal USB 2.0 interface over standard micro-
USB connector Interfaces 3D Accelerometer 3D, 8g range, 12 Bit representation, 4mg Cellocator Serial Protocol Debug, Configuration, FW upgrade resolution Movement detection CelloTrack Solar - LV500 Overview.docx Page 27 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview MMI 2 dual colored (red, green) LED status indication Wireless Connectors Internal micro-USB connector Reed relay and magnet based Activation Reed relay and magnet based tamper detection 2.4 GHz Proprietary wireless interface for MultiSense integration. Transmission power 6.5 dBm Line of site 100 m minimum lithium-thionyl chloride (SOCl2), 3.6V, 34 Ah, primary (non-rechargeable) Power 200F, 5.4V Monocrystalline, two panel of 110x80 mm max 2.4 W @STC Average Current Consumption On taking location and transmission session: 50mA Hibernation: < 230A Shipment (Off): < 230 A Environment Temp, operating
-300C +750C. Temp, storage 00C 300C (battery limitation) Humidity 95% non-condensing Ingress Protection IP69k, IP67 Based on:
MIL-STD-810E AAR S5703 Railroad Electronics environmental Requirements Screws Regulatory compliance / certification CE FCC CE Safety EN60950-1:2001+A11:2004 Part 15 Subpart B, part 22/24/27 CelloTrack Solar - LV500 Overview.docx Page 28 of 32 Copyright 2020 by Pointer Telocation, Ltd. Internal Battery Supercaps Solar Panel Environmental Requirements:
temperature Vibration Humidity Mechanical shock Salt fog Altitude Contaminates Sunlight Mounting IC CelloTrack Solar / LV500 Overview ICES-003, Issue 5:2012 Class B. CAN/CSA-CEI/IEC CISPR 22:10 PTCRB LTE and 3G; TRP, TIS, Spurious and harmonics emission AT&T Environment Yes Based on:
AAR S5703 Railroad Electronics Environmental Requirements UL RoHS conflict minerals Conflict Mineral directives RoHS 3 Directive 2015/863Compliant MIL-STD-810E Compliant Reliability Annual Failure Rate (AFR) 0.5%. Highly Accelerated Life Test (HALT) Qualmark HALT Testing Guidelines, document 933-
0336, Rev. 04. No failures observed exceed spec by 12%. reliability assessments conducted Dimensions & Weight Enclosure material PolyCarbonate Lexan 9330, White Solar panel window material PolyCarbonate transparent Dimensions Weight
~43mm x 110mm x 490mm
~ 1150gr CelloTrack Solar - LV500 Overview.docx Page 29 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 6 CelloTrack Release Package The release package of the CelloTrack LTE includes, in addition to the components mentioned in the The CelloTrack Solar Variants section, a number of software tools and documents, as described in the following sections. 6.1 Evaluation Suite The Evaluation Suite is the application which contains all the software components necessary for the evaluation of any Cellocator unit. The software components required for evaluating the CelloTrack LTE are described below. 6.1.1 Communication Center The Communication Center also supports the KML generator. The Keyhole Markup Language (KML) is an XML notation for expressing geographic annotations and visualizations within Internet-based, two-dimensional maps and three-dimensional Earth browsers, such as Google Earth, Google Maps, and Google Maps for Mobile. For more details about the new Communication Center capabilities and usage during the integration process, refer to the Cellocator Evaluation Suite Manual. 6.1.2 Cellocator Programmer The concept of operation and parameters flow between the four entities of HW, Programmer screen, storage and CelloTrack LTE Editor is shown below:
Figure 1: Operation Flow The Cellocator Programmer supports the CelloTrack LTE Editor which can read, edit and write PL parameters for CelloTrack LTE and MultiSense devices. CelloTrack Solar - LV500 Overview.docx Page 30 of 32 Copyright 2020 by Pointer Telocation, Ltd. Upload parameters Open LTE Editor or Read from PL Sensors configuration tab or 3 4 1 2 6 Dashboard direct link Download parameters Write to PL Dashboard / Sensors status tabs File open 5 File save CelloTrack Solar / LV500 Overview The CelloTrack LTE Editor has four main tabs:
Dashboard: This tab provides you with a real-time overview of the entire system when the CelloTrack LTE is connected to the Cellocator Programmer. Sensors Status: This tab is a dashboard where all relevant CelloTrack and Multisense data is presented. When selecting one of the listed devices, its data is shown graphically in the lower part of the window, providing a visual overview of the selected device. Sensors Configuration: This tab provides the ability to activate sensors (i.e. accelerometer, light, magnetic, humidity, temperature, proximity) and sensor thresholds per device (CelloTrack, MultiSense) which can be downloaded as a PL afterwards via the standard PL OTA/Serial procedure. Legacy events type-11 configuration: This tab contains all type-0 fields related to the CelloTrack that can be transmitted over Type 11 protocol. The user can set each one of the fields, which can be sent as a PL afterwards via the standard PL OTA/Serial procedure. 6.2 Integration Package (Cellocator GW) The Cellocator Gateway is a set of software components offered to Cellocator customers wishing to integrate the Cellocator OTA protocol into their production environment. Customers using the Cellocator Gateway benefit from a quicker and easier integration process, and are also entitled to software upgrades, technical support and more. Cellocator Gateway is built utilizing the latest MS-based technologies, and provides high availability and load balancing options, as well as enabling clients the opportunity to integrate and start working with Cellocator units without investing a large amount of time and resources. The new version of Cellocator GW includes all new fields related to the CelloTrack solution. 6.3 Cellocator Wireless Communication Protocol This document explains the units wireless communication protocols and concept. It describes every byte of the incoming/outgoing packets, which can be sent or received by the unit over-the-air. 6.4 Cellocator Integration Package Manual This document provides a complete product description of the Integration Package solution and other integration related information, for the purposes of integrating the Cellocator OTA protocol within a new clients production environment. 6.5 Evaluation Suite Manual The Cellocator Evaluation Suite Manual is a comprehensive guide that provides information required to run an initial appraisal and testing process of Cellocator units. The Cellocator Evaluation Suite contains a complete set of components that simplify bench testing of the system and serve as a demonstration platform for people wishing to understand the operational aspects of the system. The Suite is also intended to facilitate the development of interfaces to the Cellocator system by integrators or service providers. CelloTrack Solar - LV500 Overview.docx Page 31 of 32 Copyright 2020 by Pointer Telocation, Ltd. CelloTrack Solar / LV500 Overview 6.6 Cellocator Programmer Manual This document describes the features supported by the Cellocator unit and provides details about the configuration parameters. 6.7 Integration Manual This document provides the software integrator with information and hints on how to integrate an application with the CelloTrack. 6.8 Training Presentation This documentation provides preliminary Integration Manual information through the beta phase. 6.9 Battery power calculator This excel based calculator provides the CelloTrack Solar life time based on the specific required operation method. CelloTrack Solar - LV500 Overview.docx Page 32 of 32 Copyright 2020 by Pointer Telocation, Ltd.
1 2 | Label Info | ID Label/Location Info | 464.76 KiB | October 09 2020 |
Label Location This device complies with FCC Rules Part 15:
@ PowerFleet Operation is subject to two conditions:
EATUUUVUUNEIMETEI QUIN BIL (4) This device may not cause harmful interference,and 2 1 0 4 5 3 5 (2) this device must accept any interference that may be received or that may cause undesired operation. LV-500 puvsoo HUNAN 935-00001602 REV: 01 FOCI: G69CTSO Aug.2020 360A GATS MAC Address IED ICCID cc Ip:QIPELS61-USA
' [a] [a] fa) 2] IC: 7830A-ELS61USA as a ais ped ih x This device complies with FCC Rules Part 15:
BPA Operation is subject to two conditions:
Gellocator (4) This device may not cause harmful interference,and HAEIIILUNBIMEUEIBIE BI (2)*his device must accept any interference that may Q1O4S35 steer tty ise nee pron CIN: GC9776001 -020 PMN:LV500 HVIN:6001 CelloTrack Solar LTEC1NA icio-ssrsactso B Contains:
Aug.2020 FCC ID:QIPELS61-USA MAC Address IMEI ICCID _1C: 7830A-ELS61USA Ase le ee _ a 1G Ba
1 2 | C2PC Letter | Cover Letter(s) | 245.05 KiB | October 09 2020 |
C2PC Declaration of Change Currently, the following C2PC changes were made to the E.U.T.;
USB changed to top entry;
L25 replaced with L26 (same value different dimensions);
SIM holder changed to Nano sim and location change;
Tamper switch moved on board;
Connectors changed to Cvilux family;
D1 LED removed;
Changed BLE location with its antenna while keeping the layout and antenna. Mechanical enclosure modification in order to improve product water sealing. The E.U.T. was originally FCC certified on 11/11/2019 under FCC ID: 2AG69CTSO. 2. a. b. c. d. e. f. g. h. The new device will have two marketing names CelloTrack Solar and LV500. They are identical other than in name. Original EUT C2PC EUT Original EUT C2PC EUT Original EUT C2PC EUT Original EUT C2PC EUT _________________________ Igor Rogov Igor Rogov, VP Engineering, Pointer Telocation August 13, 2020
1 2 | Confidentiality Letter | Cover Letter(s) | 47.03 KiB | October 09 2020 |
Date: August13, 2020 Federal Communications Commission Authorization and Evaluation Division To: Federal Communications Commission Confidentiality Request regarding application for the FCC C2PC certification of FCC ID: 2AG69CTSO Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, we hereby request confidential treatment of information accompanying this application as outlined below:
a. CONF APPENDIX CelloTrack Solar Partlst.pdf b. CONF APPENDIX CelloTrack Solar Schem.pdf The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these materials may be harmful to the applicant and provide unjustified benefits to its competitors. Thank you, Igor Rogov, VP Engineering, Pointer Telocation
1 2 | Power of Attorney Letter | Cover Letter(s) | 27.59 KiB | October 09 2020 |
Date: August 13, 2020 To: Timco Engineering Inc. To Whom It May Concern We hereby authorize Mr. Ilan Cohen of I.T.L. (Product Testing) Ltd (ITL) to sign FORM 731 on our behalf for the following FCC C2PC application:
FCC ID: 2AG69CTSO Thank you, Igor Rogov, VP R&D Engineering Pointer Telocation
1 2 | Power of Attorney Letter | Cover Letter(s) | 27.71 KiB | October 09 2020 |
Date: August 13, 2020 To Whom It May Concern We hereby authorize Mr. Ilan Cohen of I.T.L. (Product Testing) Ltd (ITL) to act on our behalf regarding the following FCC C2PC application:
FCC ID: 2AG69CTSO Thank you, Igor Rogov, VP R&D Engineering, Pointer Telocation
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2020-10-09 | 2402 ~ 2480 | DTS - Digital Transmission System | Class II Permissive Change |
2 | 2019-11-11 | 2402 ~ 2480 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2020-10-09
|
||||
1 2 |
2019-11-11
|
|||||
1 2 | Applicant's complete, legal business name |
Pointer Telocation
|
||||
1 2 | FCC Registration Number (FRN) |
0025175696
|
||||
1 2 | Physical Address |
14 Hamelacha
|
||||
1 2 |
11473
|
|||||
1 2 |
Rohash Haain, N/A
|
|||||
1 2 |
Israel
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
T******@TIMCOENGR.COM
|
||||
1 2 |
t******@timcoengr.com
|
|||||
1 2 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 | Grantee Code |
2AG69
|
||||
1 2 | Equipment Product Code |
CTSO
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
I******** R****
|
||||
1 2 | Title |
V.P R&D
|
||||
1 2 | Telephone Number |
+972-********
|
||||
1 2 | Fax Number |
+972-********
|
||||
1 2 |
I******@pointer.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 | 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 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | DTS - Digital Transmission System | ||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Asset Tracking Device, LV500, Cellotrack Solar LTE C1 NA | ||||
1 2 | Asset Tracking Device, Cellotrack Solar LTE C1 NA, GC9774001 | |||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 | Modular Equipment Type | Does not apply | ||||
1 2 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 | Original Equipment | |||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 2 | 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 | Grant Comments | C2PC: PCB and Hardware changes. Previous Grant (11/11/2019) Power listed is conducted. The antenna installation and operating configurations of this transmitter, including any applicable antenna gain and cable loss must satisfy MPE categorical Exclusion Requirements of §2.1091. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operated in conjunction with any other antenna or transmitter. | ||||
1 2 | Power listed is conducted. The antenna installation and operating configurations of this transmitter, including any applicable antenna gain and cable loss must satisfy MPE categorical Exclusion Requirements of §2.1091. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operated in conjunction with any other antenna or transmitter. | |||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | 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 | Firm Name |
ITL PRODUCT TESTING LTD
|
||||
1 2 | Name |
I****** C********
|
||||
1 2 | Telephone Number |
972-8********
|
||||
1 2 | Fax Number |
+972 ********
|
||||
1 2 |
i******@itl.co.il
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0028800 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0028800 |
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