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NBX R1000-RF User Manual V 2.0 Dan Peleg 10-11-2021 Contents 1 2 Introduction .................................................................................................................................................................... 6 Definitions and Abbreviations ......................................................................................................................................... 7 Definitions ............................................................................................................................................................... 7 Abbreviations .......................................................................................................................................................... 7 3 Package contents ............................................................................................................................................................ 9 Package Contents .................................................................................................................................................... 9 Accessories available separately ............................................................................................................................. 9 4 Installation .................................................................................................................................................................... 10 4.1 Radio planning: ..................................................................................................................................................... 11 5 Connectivity .................................................................................................................................................................. 12 Interfaces .............................................................................................................................................................. 12 Power .................................................................................................................................................................... 12 IP Connectivity ...................................................................................................................................................... 12 5.3.1 USB Dongle .................................................................................................................................................... 12 5.4 RF Connectivity ..................................................................................................................................................... 13 5.4.1 Antennas ....................................................................................................................................................... 13 6 Monitor & Configuration Web Interface .................................................................................................................... 14 6.1 Web Interface Convention and Main Menu ......................................................................................................... 15 Dash Board .................................................................................................................................................... 15 Main Menu .................................................................................................................................................... 16 Login ...................................................................................................................................................................... 17 System ................................................................................................................................................................... 18 Version .......................................................................................................................................................... 19 Software Upgrade ......................................................................................................................................... 20 Database ....................................................................................................................................................... 21 User Management ........................................................................................................................................ 22 System Debug ............................................................................................................................................... 23 System General ............................................................................................................................................. 24 Safe Mode ..................................................................................................................................................... 25 6.4 Configuration ........................................................................................................................................................ 26 IoT - RF System Configuration ....................................................................................................................... 27 IoT - TX Policy ................................................................................................................................................ 30 IoT - Device Mode Configuration .................................................................................................................. 31 IoT Smart IoT Repeat (SIR) ......................................................................................................................... 32 2.1 2.2 3.1 3.2 5.1 5.2 5.3 6.2 6.3 6.1.1 6.1.2 6.3.1 6.3.2 6.3.3 6.3.4 6.3.5 6.3.6 6.3.7 6.4.1 6.4.2 6.4.3 6.4.4 1 6.4.5 6.4.6 6.4.7 6.4.8 6.4.9 IoT - White List .............................................................................................................................................. 34 IoT - Black List ............................................................................................................................................... 35 System - SNMP Configuration ....................................................................................................................... 36 System - IP Interfaces .................................................................................................................................... 37 System IP Routes ........................................................................................................................................ 38 6.4.10 System IP DNS ............................................................................................................................................ 39 6.4.11 System IPSec............................................................................................................................................... 40 6.4.12 DAS ................................................................................................................................................................ 43 6.4.13 System IP Ping ............................................................................................................................................ 44 6.4.14 System Wi-Fi ............................................................................................................................................... 45 6.4.15 System - Bluetooth ........................................................................................................................................ 48 6.4.16 System General Configuration ................................................................................................................... 49 6.5 Monitor ................................................................................................................................................................. 50 6.5.1 6.5.2 6.5.3 6.5.4 6.5.5 6.5.6 6.5.7 6.5.8 6.5.9 IoT - Device Messages ................................................................................................................................... 51 IoT - DL Messages .......................................................................................................................................... 54 IoT - NBX Device Messages ........................................................................................................................... 55 System IP Interface Status .......................................................................................................................... 56 System IPSEC Status ................................................................................................................................... 57 System DAS Status...................................................................................................................................... 58 System General Status ............................................................................................................................... 59 Common Alarms ......................................................................................................................................... 60 Common Events ......................................................................................................................................... 61 6.6 Debug .................................................................................................................................................................... 62 6.6.1 RX Capture..................................................................................................................................................... 63 6.7 Expert .................................................................................................................................................................... 67 7 Monitor & Configuration CLI ....................................................................................................................................... 68 General - CLI .......................................................................................................................................................... 68 Login - CLI .............................................................................................................................................................. 69 System - CLI ........................................................................................................................................................... 69 Version .......................................................................................................................................................... 69 Software Upgrade ......................................................................................................................................... 70 8 Monitor & Configuration SNMP .................................................................................................................................. 71 SNMP General Configuration ................................................................................................................................ 71 SNMP Commands (MIB) ........................................................................................................................................ 71 9 Monitor & Configuration Bluetooth ........................................................................................................................... 72 7.1 7.2 7.3 8.1 8.2 7.3.1 7.3.2 2 10 Monitor & Configuration IoT - Sigfox Protocol ...................................................................................................... 77 10.1 NBX Device Mode - General Configuration ........................................................................................................... 77 10.2 NBX Device Mode - General Flow ......................................................................................................................... 77 10.3 NBX Device Mode Messages .............................................................................................................................. 77 11 12 Specifications ............................................................................................................................................................ 78 Appendix ................................................................................................................................................................... 79 12.1 Initial IP Connectivity Setup .................................................................................................................................. 79 12.1.1 RJ-45 IP port .................................................................................................................................................. 79 12.1.2 Wi-Fi interface ............................................................................................................................................... 80 12.2 Cellular USB Dongle Setup .................................................................................................................................... 81 12.2.1 Cellular USB Dongle Installation .................................................................................................................... 81 12.2.2 USB Dongle Parameters Setup ...................................................................................................................... 83 12.2.3 USB Dongle Status Monitoring ...................................................................................................................... 84 Figures Figure 1: NBX General Application .......................................................................................................................................... 6 Tables Table 1 NBX specifications .................................................................................................................................................... 78 3 Versions:
Version 2.0 Description Base 2.0 Author
Date 28/11/2021 4
(15.21) Changes or modifications not expressly approved by the manufacturer could void the users 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. This equipment should be installed and operated with minimum distance of 20 cm between the radiator and your body. 5 1 Introduction Main features:
The Narrow Band eXtension (NBX) R1000-RF is used to extend the Sigfox IoT network coverage by repeating Sigfox messages. Supports Sigfox message repetition, including UL and DL. High capacity: up to 10 Million messages/day, 1000/300 simultaneous UL messages
@ 100/600 baud Sigfox waveform compliant:
Sub GHz ISM (multi region RC1 to RC7) RX : sensitivity -134dBm @600 baud, -142dBm @100 baud, band >200KHz, Multi carrier TX: Multi carrier o o o o Device mode Flexible high-performance design:
o SDR & FPGA SoC o Receive diversity (2x Antennas ) Characteristics:
o M&C Connectivity: Wi-Fi & Bluetooth (BLE), Ethernet (<100Mbps), USB master (to 4G modem) o Power: Passive PoE, 10-48V, <5W (excluding optional USB modem) o Physical : IP67 , Outdoor and indoor, -30C + 55C, 185x185x57mm Figure 1: NBX General Application 6 2 Definitions and Abbreviations 2.1 Definitions Following terms and definitions apply:
Base-Station (BS): Radio hub which connects endpoints (via RF) to Sigfox cloud (via IP). Downlink (DL): Unidirectional communication from the BS to the EP. End-Point (EP): Sigfox capable device. Narrow Band eXtension (NBX): Narrow-Band message repeater network coverage extension system. Uplink (UL): Unidirectional communication from the EP to the BS. 2.2 Abbreviations Following abbreviations apply:
AES BER BPSK BS CRC DL ERP EP ETSI FCC FPGA GPS GW IoT IP ITU LAN LBT LPWA LPWAN LTE NBN NBW Advanced Encryption Standard Bit Error Rate Binary Phase Shift Keying Base-Station Cyclic Redundancy Check Downlink End-Point Effective Radiated Power European Telecommunication Standards Institute Federal Communications Commission Field-Programmable Gate Array Global Positioning System Gate-Way Internet of Things Internet Protocol International Telecommunication Union Local Area Network Listen Before Talk Low Power Wide Area Low Power Wide Area Network Long Term Evolution (4G) Narrow-Band Network Narrow-Band Waveform 7 NB-IoT Narrow-Band Internet of Things (3GPP LPWAN) NBX OTA PAN PHY RX SDR TX UL UNB Narrow-Band eXtension Over The Air Private Area Network Physical layer Receiver Software Defined Radio Transmitter Uplink Ultra-Narrow Band 8 3 Package contents 3.1 Package Contents NBX R1000-RF repeater. Standard mounting kit. RJ-45 extender. 2x Antennas. 3.2 Accessories available separately Passive PoE injector. Tilted pole mounting kit. Passive 24V PoE power supply. Window mounting kit. Various Antennas. 9 4 Installation The R1000-RF repeater can be installed indoors or outdoors (IP67). It can be mounted on a tower, pole, wall, window, or any other stable structure. The main considerations for the choice of the installation location are:
NBX coverage of the Sigfox devices. RF communication with Sigfox Base-station or other NBX repeater (daisy chain). Power supply (<5w with 10-48V). Best practice for RF interference reduction is to place the NBX R1000-RF as far away from other RF equipment and not in direct line of site of cellular antennas. In general, placement considerations for the NBX repeater are similar to those of the Sigfox base-station with the only difference being the need to be within coverage of one or more Sigfox base-stations (or another NBXs when in daisy chain mode). 10 4.1 Radio planning:
For radio planning, one may use the standard Sigfox tool for a candidate site. If using an external 5dBi antenna, the parameters should be the same as a Sigfox Macro configuration (5dBi antenna + LNA +..). In the Sigfox backend, make sure that the chosen site is covered by one or more Sigfox BSs an add the NBX as a candidate site to predict coverage. Coverage check can be made with Simple coverage, as there will be a 10+ dB improvement at rooftop level relative to ground level (which the Backend estimates). Then change the antenna gain by selecting other and for basic antenna use 0 dBi as a worst case OR 5dBi/TBD for external antenna you use. 11 5 Connectivity 5.1 Interfaces Waterproof Ethernet (RJ-45) - for power and IP communication RP-SMA x2 for antennas ETH RP-SMA (A) RP-SMA (B) 5.2 Power The NBX uses passive PoE for supplying power. The power is provided by an AC/DC adapter through a passive PoE DC injector (Pins 4,5 (+) and 7,8 (-)). Supported voltage range: 10V to 48V DC. Average R1000-RF power consumption - up to 5Watt (excluding USB modem). The NBX R1000-RF repeater relies on RF communication to one or more BS for its functionality. IP connectivity is mainly used for expert/technical management, control access and FW upgrades. 5.3 IP Connectivity IP connectivity is not mandatory. IP connectivity options:
RJ-45 Wi-Fi/BT USB dongle See section 12.1 for initial setup guidelines. 5.3.1 USB Dongle Following models are supported:
12 Huawei E8732/E3372 Huawei MS2131 ZTE MF833V ZTE MF110 Onyx Soracom See section 12.2 for initial setup guidelines. 5.4 RF Connectivity The NBX R1000-RF repeater includes two RP-SMA external antenna ports (A & B). 5.4.1 Antennas Any antenna with RP-SMA connector can be used. The frequency range should be selected according to the RC zone. Two 2.15 dBi antennas are supplied with each NBX-R1000-RF unit. But in some cases, a higher gain antenna can be used. 13 6 Monitor & Configuration Web Interface In general, most configurations are done automatically without any user intervention. Some of the settings described below are temporary for manual configuration or advanced settings. There are three levels of user permissions: Super-User, Admin, User. Possible methods for accessing the NBX R1000-RF are:
Web (over IP). CLI (over IP). SNMP (over IP). Bluetooth (Using dedicated application). IoT (Sigfox messages). This section will describe the web access mode. It is recommended to use Chrome web-browser. There are special commands and menus which are available only in expert mode and are not required for normal operation of the unit. 14 6.1 Web Interface Convention and Main Menu In a typical web page, the following apply:
Open sub menus highlighted in blue. Current page highlighted in salmon. Field change before applying circled in red. Tooltip white on black 6.1.1 Dash Board Appeared on the top right corner of the web page. Device ID: The Sigfox device ID of the unit Counters Clear Time: time since last clear of the messages counters [ minutes]. UL Received: How many unique UL messages were received. UL Repeat: How many UL messages were repeated. UL TX Power : Uplink transmit power [dBm]
UL TX Channel : which channel the UL is being transmitted on (A/B/Disabled)
: Temperature [C]
: Voltage [V]
S.N. : Serial number SW : SW version
: Current date/time
: Time zone Up Time: Time since reboot. 15 6.1.2 Main Menu Appeared on the left side of the page. Divided to 5 main areas:
Monitor: Display status information. Configuration: Configure the unit settings. System: Various system tasks (e.g. SW upgrade). Debug: Debug features. Expert: Advance expert-mode settings (not needed for normal operation). 16 6.2 Login After identifying the NBX R1000-RF IP, it can be access via web browser. Username and password are required. Default username and password for Super-User mode are:
Username: admin Password: Admin The password can be changed. Login session has a timeout of 15 minutes, after which a logout is automatically performed. 17 6.3 System Under System all users will see the following sections. System configuration and monitor are under the general Monitor, Configuration menus. Version Product versions details. Software Upgrade SW upgrade operations. Database Database management. Users User management. System Debug Debug files. General Date/Time, reboot. Safe Mode Safe mode operation. 18 Display the NBX-R1000-RF SW and HW versions and S/N. 6.3.1 Version Product Name Serial Number HW Version SW Version Build Date Wi-Fi/BT SW Version 19 6.3.2 Software Upgrade Upgrading the software. There are two SW versions on the unit: Main and Backup. During SW upgrade process the NBX R1000-RF is downloading and extracting a new SW version, replacing the backup copy. After the download and extraction process is finished, the user can swap to the new SW version, which causes the unit to reboot with the new version. So, the normal process is as follows:
Download the SW to a local folder accessible by your PC Use Download and extract to backup to select the new SW. After the file is extracted and shown in the Backup Software , do Swap to backup Then the unit will reboot with the new SW version. The user can revert to the older version at any time by pressing the Swap to Backup button. If the IP connectivity is slow, then it is recommended to use tftp process via CLI, instead of Web interface. There is also an optional Clear DB feature - internal use. 20 Database is used to store the unit configurations. Save, download, upload database from/to the NBX. Save save the current configuration into the permanent storage (db0.db). Save As - save the current configuration into specific file given by Name. Load Activate saved database (the unit will reboot). Delete Delete saved database. Upload Upload database from the NBX to the computer. Factory Defaults Reset current configuration to factory defaults settings (the unit will reboot). Download Download database file from the computer into the NBX (without activation). 6.3.3 Database 21 6.3.4 User Management Managing users. The logged-in user can only change/add users with same or lower level. 22 6.3.5 System Debug Download log files from the unit to the PC for debug purpose. 23 6.3.6 System General General system functions:
Set Time of Day Select Time zone Reboot 24 Safe Mode 6.3.7 Safe mode can be used during configuration changes. Safe Mode ensures that the communication to the unit is still active following any configuration changes. The user can configure the timeout period in seconds. The User needs to exit Safe Mode before the timer expires. If the user did not exit the safe mode after the configuration and before timer expiry, then the unit will revert to the previous configuration and reboot. This prevents mistakes in configuration which can disconnect the unit. When in safe mode, the screen color scheme changes, and there is a countdown timer in the top right corner. Set safe mode time. Enter safe mode. Once activated Exit Safe Mode appears on the following screen. 25 6.4 Configuration Under Configuration there are two main sections IoT and System:
o RF System Configure the IoT RF parameters, including filtering and antenna connectivity o TX Policy UL and DL transmission power levels and UL frames limit o Device Mode Device mode configuration o Smart IoT Repeat Smart IoT Repeat (SIR) Configuration. o White List Devices which will be repeated (other device-ids are dropped). IoT Config:
System Config:
IP Interfaces IP Interface settings (IP, GW, DHCP) IP Routes IP static routes settings IP DNS IP static DNS settings IPSec IP VPN settings o SNMP SNMP settings o o o o o DAS DAS Settings o IP Ping Ping command o Wi-Fi Wi-Fi configuration o Bluetooth Bluetooth configuration o General system general settings (name, location) 26 IoT - RF System Configuration 6.4.1 Configure the IoT RF mode and connectivity. After setting a new configuration, it is necessary to save it. 27 RC zone:
RF setting:
RX Filter:
Selects the RC zone : RC1,RC2RC7 The UL and DL center frequencies are specified after selecting the RC. The other characteristics per RC will be implemented (e.g. 100Hz /600Hz baud etc.). The NBX-R1000-RF includes two RF channels (A&B) with external antennas. Currently, the Internal Connectors are not being used. Each channel has an optional LNA which can be selected (this is for increased sensitivity). LNA can be turned off if devices are in close proximity to the NBX, e.g. several meters distance from the repeater. There are embedded RF filters which can mitigate RF noise in adjacent frequencies (similar to the cavity filter functionality). Normally those filters should be used. Only in an isolated/quite places those filters can be turned off (for having an extra sensitivity). 28 RX :
Selects which channels will be used for receiving the UL & DL. For UL, both channels can be used simultaneously (receive diversity). For DL, it is normally selected according to the best positioned antenna towards the nearby base-station(s). UL RF channel options: A, B, Dual, Disabled DL RF channel options: A, B, Disabled TX:
Selects which channel will be used for transmitting for the UL & DL separately. For UL, it is normally selected according to the best positioned antenna towards the nearby base-station(s). UL RF channel options: A, B, Disabled DL RF channel options: A, B, Disabled, Auto (Auto selects the antenna based on the UL signal quality) 29 6.4.2 IoT - TX Policy Selects the transmission power. The R1000-RF uses multi-carrier transmission mode, which enables higher capacity with minimal interference and adheres to the regulations. The UL power level must be set to balance enough base stations receiving the repeated messages without reaching too many. UL Tx-power [dBm]: Power per transmitted UL frame. Actual power will be calculated based on multi-carrier scenario. DL Tx-power [dBm]: DL frame transmitted power. The DL TX power is recommended to be set to 27dBm for the DL link budget to match the UL sensitivity. Limit UL Max Frames In Block: Allows to limit the maximum UL frames per transmission to a value less or equal to the Max UL Frames In Block). For example, the user can change this value from 12 to 1. In this case if 12 UL frames are received simultaneously, they will be transmitted 1 frame at a time. Max UL Frames In Block: The maximum number of UL frames, calculated according to the UL Tx-power (information only). 30 IoT - Device Mode Configuration 6.4.3 Configure the Device-mode setting:
Note that some of the settings will be configured automatically in a future SW release. App Sleep Time [sec] Time interval between UL messages generated Default TX Channel Which Channel (A/B) to transmit the Device messages Default TX Antenna Which Antenna (Internal/External only external available) to transmit the messages Symbol Rate What symbol rate (100/600Hz) to transmit the Device messages (600Hz is recommended) Set App Config Change the configuration TX NBX SFX Message Transmit a device message used for calibration of the TX power. Device ID + Message counter Current Device-ID and message counter (information only). The Device ID and key are unique per NBX unit. 31 IoT Smart IoT Repeat (SIR) 6.4.4 Configure the Smart IoT Repeat (SIR) setting:
Note that some of the settings will be configured automatically in a future SW release. The SIR functionality minimizes unnecessary repetitions and repeats only the required messages. e.g. in multi hop scenario. How to repeat the incoming messages:
White-list enable/disable Black-list enable/disable Repeat Options Frame number and Repeat Bit selection for repeated messages Repeat Frame Number Filter filtering for selecting frames to be repeated . Repeat options allows selection of the frame number and repeater bit settings for repeated messages. Use automatic or manual settings. Frame # : 1,2,3,Auto, Repeater-bit = On,Off 32 Selects whether to turn on the repetition bit for UL messages (Sigfox backend will show the message as having been repeated) according to the message type. The default is to turn it on for unidirectional only. (Currently, the Sigfox backend will not send a DL message to the NBX if the Repeater bit is turned on for bidirectional messages) Repeat Frame Number Filter Select which Frames to be repeated according to frame number and repeater bit. This can be used to filter unnecessary frames. 33 IoT - White List 6.4.5 Devices which will be repeated (other device-ids are dropped depending on general SIR options). The White-list can be updated manually via the GUI or by loading a text file which contains the device-ids. csv file: Text files need to include separate line per device-id and assumes hexa-decimal format (can be with or without 0x prefix) lower or uppercase are accepted. And indication on enable/disable per device-id (0/1) e.g. all the below are valid formats (second dev-id is disabled in the example):
0x1234AB , 1 333aB , 0 Fe44ba22 , 1 Web GUI: The current White-list is displayed and can be changed via the GUI. Following options supported:
Add - add specific device-id Delete delete specific device-id Enable/Block Enable or Block specific device-id Search all device-id that match the search pattern Upload upload csv file Export export current white list to csv file 34 IoT - Black List 6.4.6 Devices which will be blocked (other device-ids are dropped depending on general SIR options). The Blck-list can be updated manually via the GUI or by loading a text file which contains the device-ids. csv file: Text files need to include separate line per device-id and assumes hexa-decimal format (can be with or without 0x prefix) lower or uppercase are accepted. And indication on enable/disable per device-id (0/1) e.g. all the below are valid formats (second dev-id is disabled in the example):
0x1234AB , 1 333aB , 0 Fe44ba22 , 1 Web GUI: The current Black-list is displayed and can be changed via the GUI. Following options supported:
Add - add specific device-id Delete delete specific device-id Enable/Block Enable or Block specific device-id Search all device-id that match the search pattern Upload upload csv file Export export current Black list to csv file 35 6.4.7 System - SNMP Configuration Configure the SNMP setting:
Version SNMP version: V1&V2 or V3 Read Only Community Read only community name Read/Write Community Read/Write community name Trap version versions - V1 or V2 Trap Host 1 IP of trap host 1 Trap Community 1 name of trap host 1 community Trap Host 2 IP of trap host 2 Trap Community 2 name of trap host 2 community Upload Mibs Files upload the Mibs file to the local PC 36 System - IP Interfaces 6.4.8 Display the NBX-R1000-RF IP interfaces settings. Name: The name of the interface Status: Enabled/disabled DHCP: Enabled/disabled. If disabled, the interface is in STATIC IP mode. MAC: MAC address IP Address Subnet Mask Default GW Metric: To set interface precedence. WEB Access: Enabled/disabled. If disabled, the GUI will not be available. APN: Only for PPP 3G/4G interface User Name: Only for PPP 3G/4G interface Password: Only for PPP 3G/4G interface Roaming: Only for 3G/4G interface Both ETH0 and ETH0:0 linked to the RF-45 interface. By default, ETH0 is set to DHCP and ETH0:0 is set to STATIC IP 192.168.1.1 / MASK 255.255.255.0. If ETH0 is set to STATIC, ETH0:0 is disabled. 37 Displays the NBX current routing table and allows insertion/deletion of static routes. Admin State Enable/Disable this route. IP Destination IP network address. Mask IP network subnet mask. Gateway IP router address for this network. Metric Metric of this route for priorities in case of multiple routes. Type Connection type (Dynamic / persistent). Interface The interface which the route relates to. System IP Routes 6.4.9 38 Display the current domain name servers and allows to adding or removing static DNS. Destination IP address IP address of the DNS. 6.4.10 System IP DNS 39 6.4.11 System IPSec IPSEC Configure a secure IPSec VPN tunnel. Mode Enable / disable all IPSEC tunnels. Interface Select on which IP interface the IPSEC will be initialize. AUTO for the IPSEC to initialize on the first available interface that allows an internet connection, otherwise will try to initialize only on the selected interface. Restart Manually restart the IPSEC tunnels and try to reconnect. Connections Define the IPsec connection settings Add Add a new connection to the list. Remove Remove a connection from the list. Edit Edit an existing connection. Download Config File Download a pre-configured connection setup from the PC to the NBX. Upload Config File Upload the existing connections from the NBX to the PC. 40 Route - loads a connection and installs kernel traps. If traffic is detected, a connection is established. Name The name of the connection State Add - loads a connection without starting it. Ignore - ignores the connection. Start - loads a connection and brings it up immediately. Server Address the other VPN endpoint address. IP or fully-qualified domain name (FQDN). Server ID ID of the other VPN endpoint, used also for authentication. Can be an IP address, a fully-qualified domain name, an email address or a Distinguished Name for which the ID type is determined automatically and the string is converted to the appropriate encoding. Server Subnet - network/netmask of the other VPN endpoint. Server Authentication - Authentication method require from the other VPN endpoint. Client ID - ID of the NBX. Client Authentication - Authentication method use locally. Secrets Defines the VPN secrets. 41 Selectors - A selector is an IP address, a Fully Qualified Domain Name, user@FQDN, %any or %any6. Secret Authentication - type of the secret:
RSA - defines an RSA private key. ECDSA - defines an ECDSA private key. P12 - defines a PKCS#12 container. PSK - defines a pre-shared key. EAP - defines EAP credentials. NTLM - defines NTLM credentials. XAUTH - defines XAUTH credentials. Secret Key Password to use with the Key. Secret File Secret File used with the Key the file should download using the Download certificate file button with the current type. Files Enable downloading or removing of a certificate file according to the type selected. 42 6.4.12 DAS DAS Allows multiple NBXs to work together, connected via IP, where the Master, in addition to operating as a repeater, is also responsible relaying messages to/from Sigfox base stations and the Slaves communicate with the devices. Disabled Disable DAS. Slave Mode All Sigfox uplink messages received by RF from Sigfox devices will be sent over IP to the MASTER. Downlink messages coming from the MASTER over IP will be sent by RF to the devices. Master Mode Uplink messages received over IP from the SLAVE will be sent by RF to the base station. RF downlink messages received from the base station and associate with a device that located behind the SLAVE will be send over IP. Slave can have only one master. Master can have up to 10 slaves. To switch between MASTER and SLAVE modes, you must first change the Mode to Disabled. 43 Ping an IP address:
Target Ip Address / Domain name: The IP address / Domain name to ping. Interface: The IP interface from which the Ping will be send. Use Auto to try all interfaces. Count 0-100000 (0 for endless): Set the number of pings to be sent or 0 for endless pings. Timeout 1-10 (Seconds): Set the ping timeout. Start: Start pinging. Stop: Stop pinging. Status: Display the current pinging status and statistics. 6.4.13 System IP Ping 44 6.4.14 System Wi-Fi Configure Wi-Fi interface :
Disabled: Disable the Wi-Fi. Station: The NBX is in station mode connecting to available access points. Access Point: The NBX is in Access Point mode Access Point Auto off: The NBX is in Access Point mode when powered up. After 15 minutes, the AP turns off automatically until the unit is again powered on. This feature allows the use of Wi-Fi for the initial configuration, or for on-site configuration. Change to any other mode to disable this mode. To switch between Station / Access Point
/ Access Point Auto off modes, you must first change the Mode to Disabled. 45 6.4.14.1 System - Wi-Fi Station Scan for available access points press Scan. To connect: Select the desired access point from the list provide password press Connect or alternatively enter the SSID and Password manually and press Connect. After connecting to the AP, an IP will be provided. 46 6.4.14.2 System - Wi-Fi Access Point To enable: Select Access Point mode provide password (optional) Apply After enabling the access point, it provides the details of the SSID and the user may connect to it from an external device, The IP Address to connect to the NBX via the AP is listed (192.168.0.2) 6.4.14.3 System - Wi-Fi Access Point Auto off Same as 6.4.12.2 (Access Point), but with 15 minutes timeout after power-on / reboot, after which the AP will be automatically disabled until the next power up. Default password: 12345678 47 Configure Bluetooth interface :
Mode: Enable/Disable. Upload Application: Upload the Android APK application from the NBX to the PC. This application can be installed on any Android machine to control & manage the NBX via BT. 6.4.15 System - Bluetooth 48 6.4.16 System General Configuration General configuration to be read by SNMP and other control tools:
Location: Text describing the location Name: The name of the unit Description: Description of the unit Contact: Support email contact Alias: An alias name for the unit. Will be displayed in the browser tab and CLI prompt. Latitude: The geo-location latitude value in a range of -90 - +90 degrees. Longitude: The geo-location longitude value in a range of -180 - +180 degrees. 49 6.5 Monitor Under Monitor there are two main sections IoT and System:
IoT Monitor:
o Device Messages Displays UL messages received and repeated by the unit as well as DL messages received and associated to UL frames received o DL Messages display all DL frames received, including those which not associated with a corresponding UL. o NBX Device Messages Self Messages generated from/to the NBX unit System Status:
o IP Interface Status Statistics of the IP interfaces o IPSEC Status Status of the IPSEC VPNs o DAS Status Statistics of the DAS messages o General Status General Status (temperature, Voltage) Common:
o Alarms Current Alarms o Events Events log 50 IoT - Device Messages 6.5.1 Displaying the messages received and repeated by the unit (including associated DL messages). All the relevant information for each unique message is displayed:
Receive o Dev-ID: Device ID (can search for specific device-IDs) o MSG Counter: Message counter (can search for specific MCs) o Type: UL, UL100 or DL (UL100 are UL messages at 100Hz Baud) o TOD: Time of Day o BF: Bi-directional or Uni-directional mode (ACK or not) o REP: Repetition bit on (1) / off (0) o Payload: payload data (can search for specific data) available in Expert mode only o Frame # : how many frames out of the 3 were received o RF CHN : The strongest RSSI frame, RF channel (A or B) o RSSI[dBm] : The strongest RSSI frame o Freq.[kHz] : The strongest RSSI frame, frequency (relative to the central band). Repeat o Status: the status of the repetition: Repeated, pending, o TOD: Time of Day of the transmitted o Freq.: transmitted frequency (relative to the central band N.B. it is different for both UL and DL). o TX Channel Which channel the message was repeated from o Power[dBm] : Transmitted power DL messages are placed below the associated UL message which triggered it. Collect Messages Enable/disable message collection mechanism. 51 Detailed message information: can be displayed when clicking on the message (+):
All the related information details of each frame are displayed. OOB/Control message information: detailed the Sigfox control message information. VDD-Idle, VDD-TX, Temperature, RSSI. Statistics: displays the overall messages statistics. How many were received and how many were repeated.
# Unique Devices: Number of unique device-ids
# Unique Messages: Message counter Total Received : How many messages were received Repeated : Total messages repeated 52 Actions:
Clear counters: Clear the statistics. Show : display 10,25,50 or 100 entries Refresh: refresh the message monitor Search: Search according to search criteria in other fields Delete: clear all the messages Export: export the messages displayed to Excel file Print: Print the displayed messages 53 IoT - DL Messages 6.5.2 Displays all DL received frames, including ones which not associated with UL repeated by the unit. For each unique message all the relevant information is displayed:
TOD: Time of Day For associated messages:
o Dev-ID: Device ID o MSG Counter: Message counter o DL-PHY-Content o RSSI[dBm] : The strongest RSSI frame, RSSI o Freq.[kHz] : The strongest RSSI frame, frequency (relative the central band). o Status: Confirmation if it was repeated. Detailed message information: Displays more details when clicking on the message (+). Actions:
Similar to Device messages screen. Clear counters: Clear the statistics. Show: display 10,25,50 or 100 entries Refresh: refresh the message monitor Delete: clear all the messages Export: export the messages displayed to Excel file Print: Print the displayed messages 54 IoT - NBX Device Messages 6.5.3 Display NBX Device Messages created by the unit. Similar fields as in Device messages screen. Actions:
Like Device messages screen. Clear counters: Clear the statistics. Show: display 10,25,50 or 100 entries Refresh: refresh the message monitor Search: Search according to search criteria in other fields Delete: clear all the messages Export: export the messages displayed to Excel file Print: Print the displayed messages 55 Display the NBX-R1000-RF IP interfaces and USB Dongle, status and statistics. System IP Interface Status 6.5.4 56 Display the status of IPSEC VPN in NBX-R1000-RF. System IPSEC Status 6.5.5 Name State Duration Source IP Destination IP Source Net Destination Net 57 System DAS Status 6.5.6 Display the NBX-R1000-RF IPSec status and statistics. The Status info depends on DAS setting, Master/Slave/None IP IP Address Slave/Master ID Which Master/Slave ID Socket Port IP port UL Packets number of UL packets DL Packets number of DL packets KA Packets number of Keep Alive packets Actions Clear counters Master:
Slave:
None:
58 System General Status 6.5.7 Display the NBX-R1000-RF general status:
Voltage [V] Input Voltage [Volt]
Temperature (SDR chip Temperature) [C]
System up Time time elapsed since system boot 59 6.5.8 Common Alarms Display the NBX-R1000-RF Alarms. 60 6.5.9 Common Events Displays events on the NBX-R1000-RF. 61 6.6 Debug Under Debug there are the following sections:
RX Capture Captures the raw RF samples and analyzes the spectrum Additional available only in Expert mode 62 6.6.1 RX Capture RX Source: Captures samples from the RF channel chosen for offline analysis. Either the entire band (SDR: UL+DL) or for each channel narrow band (UL-A, UL-B, DL). Start Record/Stop Record: Starts and stops the recording of the chosen band(s). Can capture up to: 10 or 20 seconds for single/dual channel mode or 1 or 2 seconds for the entire band. Download Record: Downloads the file. File name can be selected - every new capture, increase the name number suffix
(#). Choose a File: Select a previously recorded file to show the analysis. Embedded analysis tool included in the RX Capture page. Data can also be analyzed offline by expert tools. e.g.:
63 6.6.1.1 RX Capture - Analysis Upload the captured data by selecting the file:
UL and DL captures occupy 360KHz around the RC zone central frequencies. 192KHz is Sigfox usable band. SDR captures occupy 5.7MHz around the mid. Frequency between UL and DL, so, it displays both bands. There are several analysis options (pressing on the legend turn on/off the display) :
Average PSD (Power Spectral Density) Max-Hold PSD Spectrogram (freq. over time) The limits and frequencies are displayed according to the current selected RF configuration of the unit. E.g.:
64 65 66 Under Expert there are the additional sections which are for expert user (Super-User group) and internal use:
6.7 Expert Need to login first:
Each time a different challenge is generated to login. 67 7 Monitor & Configuration CLI This section will describe some BASIC CLI access mode. A more detailed reference manual can be used. 7.1 General - CLI After identifying the NBX R1000-RF IP Address, it can be access via SSH using standard tools, e.g. putty). After login, there are 3 main functionalities:
Debug special debug instructions {internal use}
Enable Configure various setting in the device. Show display current status of the device In addition, there are global CLI commands:
? display help (at any stage of the CLI even during command entry) Exit exit one level up Help display help History display current session CLI history Logout Logout from the CLI session Top Return to default mode
! Comments debug Change to the debug mode enable Turn on privileged commands exit Exit from the CLI help Display an overview of the CLI syntax history Display the current session's command line history logout Logout of the current CLI session show Change to the show mode top Return to the default mode Menu commands are indicated by (M). At each hierarchy the current location is in the command prefix. e.g. in the enable menu :
configure (M)Enter configuration mode in the sub menu enable>config>system>general
(config-system-general)#
68 System configuration and monitor are under the general Monitor, Configuration menus. 7.2 Login - CLI Need to provide user-name and password. login as: admin admin@10.1.12.12's password:****
* Capacicom NBX CLI *
* WARNING: Authorized Access Only *
Welcome admin it is Thu Jan 1 00:02:22 UTC 1970
7.3 System - CLI Under System all users will see the following sections. Version - SW and HW version, S/N Software Upgrade SW upgrade Database Database management Users User management System Debug log files for debug General reboot Safe Mode Safe mode 7.3.1 Version Display the NBX-R1000-RF SW and HW versions and S/N.
> show system serial_number 24:0a:c4:19:77:24
> show system hw_version 5
> show system version 1.0.0+1836
> show system esp_version software version: 1.0.5.0
> show system all Temperature: 48.812817 Voltage: 22.608000 Product: NBX-R1000RF Serial Number: 24:0a:c4:19:77:24 System HW Version: 5 System Version: 1.0.0+1836 [25/05/2021-16:13]
System Version Backup: 1.0.0-local+1822 [04/05/2021-15:06]
Build Date (D.M.Y): 15.2.21 | Build: 1 ESP software version: 0.0.0.0 69 Software Upgrade 7.3.2 Need to have a tftp server to access the SW package. First need to download and extract (in the enable-system menu):
(system)# software_upgrade < Software.tar.gz file> < tftp file server IP> <server type>
(system)# software_upgrade sw.package.iot_nbx_40MHz.1.0.0+1351.tar.gz 10.1.1.2 tftp e.g. Afterwards, need to swap to backup:
(system)# swap_software 70 8 Monitor & Configuration SNMP Following are the SNMP settings and commands. The IP address and the general settings. Need to be known in order to access the unit. SWNMP discovery tool can be used. See section 8.1 SNMP General Configuration Before starting to work with the unit via SNMP, it needs to be configured according to your NMS requirements. Configuring the SNMP setting:
Version SNMP version: V1&V2 or V3 Read Only Community Read only community name Read/Write Community Read/Write community name Trap version versions - V1 or V2 Trap Host 1 IP of trap host 1 Trap Community 1 name of trap host 1 community Trap Host 2 IP of trap host 2 Trap Community 2 name of trap host 2 community 8.2 SNMP Commands (MIB) MIB files are delivered with the SW version. There are 3 NBX specific command files:
CAPACICOM-COMMON.mib basic capacicom product commands (e.g., Software upgrade) CAPACICOM-NBX.mib - specific NBX R1000-RF commands (e.g., IoT RF settings) CAPACICOM-ROOT.mib link to the global mib tree Detailed commands are described within the mib files. 71 9 Monitor & Configuration Bluetooth To configure and monitor the device through Bluetooth you need first to install the application (nbx.apk) on Android device. The application can be uploaded directly from the NBX under the ConfigurationSystem Config Bluetooth menu. Download the application file (nbx.apk) to your Android device. Open the file and accept installing an application from unknown source. In your Android Bluetooth Settings menu on your device, activate the search and find the NBX device (named: NBX-
<serial-number>), select it to pair the two together. 72 Once pairing is finished, open the application, you should get the following screen:
Press connect and select the NBX from the list:
73 You should get the login screen:
Enter username and password and press Login, if user authenticated succeed you should get the main menu screen:
Depending on your selection you will get one of the following screens:
74 Monitor and configure IP settings:
RF Settings:
75 Monitoring:
76 10 Monitor & Configuration IoT - Sigfox Protocol The NBX R1000-RF is also a Sigfox device which can be access over the Sigfox network 10.1 NBX Device Mode - General Configuration The NBX unit can immediately be accessed over Sigfox network as a device without specific configuration. Expert mode enables additional settings to the default configuration. App Mode Private, Public or Test mode encryption key used. Auth Layer Disabled, Active Message authentication state. Reset MC Reset the message counter. Test Key Set the test key to be used. Set Test Key Change the test-key according to the Test Key field. Message Type Set the control message to be sent via the TX NBX SFX Message button. Download Device Key Download an encrypted device KEY/ID from PC to NBX (need reboot to activate). Set App Config Save the new configuration. The Device ID and key are unique per NBX unit. This will be provided for production units. 10.2 NBX Device Mode - General Flow The NBX sends periodic status UL messages, indicating the unit status (power, repeated messages, etc.). The user can reply with a DL message with specific command, e.g., change configuration, send advance status etc. The DL message will reconfigure NBX unit accordingly. An application server can be used to manage all the repeaters in the network. Any change to the RF configuration will put the unit in safe mode until an acknowledge is sent. 10.3 NBX Device Mode Messages Detailed message types and information are outlined in a separate document. 77 11 Specifications The following are the NBX-R1000-RF specifications Table 1 NBX specifications Radio - IoT Standard Sigfox UNB Protocol All regions (100bps and 600 bps) Operational Frequencies 865 MHz to 928 MHz (depend on country/regulations)
-140dBm @ 100bps / -134dBm @ 600bps 1000 @100bps /300 @600bps simultaneous messages (10 M/day) Receiver Sensitivity Receiver Throughput Max output Power RF channels Antennas Ethernet EXT Antennas Cellular Wi-Fi/BT Power input 27 dBm (depend on country/regulations) 2 simultaneous RX/TX channels 2 x External Interfaces/Connectivity 1 x RJ45 (10/100BaseT) 2 x RP-SMA 1 x USB dongle (internal) 1 x Wi-Fi/BT internal antenna Power Passive PoE, 10 48 V Mechanical Power Consumption
<5W typical Casing (W x H x D) 185 x 185 x 57 mm Weight 540 gr Mounting options Wall, Window, Pole, Desk mounts Environmental Operating Temperature
-30 to +55C Protection IP67 Compliance Safety Radio EMC EN 60950-22, IEC 60950-22; EN 62368-1, IEC 62368-1 EN 300 220-2 ; EN 300 220-1 ; FCC part 15.247 ; ARIB STD-T108, ETSI-300-328 (Wi-Fi / BT) EN 301 489-3; EN 301 489-1 FCC Part 15 B; FCC 15.207 and FCC 15.209 78 12 Appendix 12.1 Initial IP Connectivity Setup IP connectivity uses port 80 for WEB GUI and port 22 for SSH CLI. Make sure that the network defined policies are not blocking these ports. In addition, a VPN may be set to secure the unit access. IP connectivity to the unit can be obtain by the following guidelines:
12.1.1 RJ-45 IP port Both ETH0 and ETH0:0 linked to the RJ-45 interface. By default, ETH0 is set to DHCP and ETH0:0 is set to STATIC IP 192.168.1.1 / MASK 255.255.255.0. If connected to a switch or directly to a PC / LAPTOP, then the PC / LAPTOP should be set to STATIC IP in the 192.168.1.XXX subnet (XXX value in the range of 2 to 254). Then enter the 192.168.1.1 address to a chrome browser to open the GUI login page, or open SSH terminal with these IP. If connected to a network which has a DHCP server, the unit will automatically allot an IP address to ETH0. Obtain the allotted IP address and enter it to the browser to open the GUI login page, or open SSH terminal with these IP. 79 12.1.1.1 DNS If you have a DNS with multicast DNS protocol enabled, you can access the NBX by its name nbx-<serial-number>, e.g., nbx-30AEA4AD0488. The NBX name can be obtain from the DNS server, or by concatenating the nbx- with the serial number found on the sticker. Enter the unit name to a chrome browser to access the unit login page. 12.1.2 Wi-Fi interface By default, the unit arrives from the factory with Wi-Fi in Access Point Auto off mode in which the AP is enabled for 15 minutes each time the unit is powered-on or rebooted, to allow the user an on-the-fly connection, to be able to modify the unit settings. Unless the mode is changed each time the unit is powered-on or rebooted the 15 minutes time-
out will be available. To obtain a quick connection:
1. Make sure you LAPTOP / mobile phone Wi-Fi interface is enabled. 2. Obtain the unit serial-number from the sticker. 3. Scan the Wi-Fi APs and locate the one with SSID corresponding to the serial-number. 4. Connect to the unit SSID. 5. Use the connection properties to get the unit AP IP address (usually 192.168.30.2). 6. default password is: 12345678 7. Open a chrome browser and enter the IP to access the GUI login page, or open SSH terminal with these IP. 8. To keep the Wi-Fi AP constant enter the SYSTEM-CONFIG > Wi-Fi page and change the mode to Access Point. 80 12.2 Cellular USB Dongle Setup This guide describes the steps that are needed to connect and manage the Cellular USB Dongle. It is used to connect the NBX-R1000-RF to the cellular network. 4G-USB Following models are supported:
Huawei E8732/E3372 Huawei MS2131 ZTE MF833V ZTE MF110 12.2.1 Cellular USB Dongle Installation Obtain a USB Cellular Dongle. Below is an example of a Huawei dongle. Make sure the SIM card plugged in. Open the NBX cover by unscrewing the 4 screws. 81 Connect the dongle to the NBX upper USB port. Close the NBX cover by screwing the 4 screws. Power up the NBX. 82 12.2.2 USB Dongle Parameters Setup From the Chrome browser, type in the NBX IP to open the NBX GUI. Go to CONFIGURATION > SYSTEM-CONFIG > IP-INTERFACES page. In the Current-Interfaces table, select the wwan0 interface and type in the Configuration fields type in the APN, User, Password, and press Apply. Wait for the dongle (wwan0) to get an IP connection as seen in the below example. Note that if it is a PPP connection, the interface name will display PPP. If the dongle is a HiLink type, the APN information must be populated in the Dongle from a laptop and the Dongle will show up as ETH1 with an IP address given by the Dongles DHCP server 83 12.2.3 USB Dongle Status Monitoring In the NBX GUI, go to MONITOR > SYSTEM-STATUS > IP-INTERFACE-STATUS page. Verify that the dongle is connected and there is TX/RX traffic. In the USB 4G/3G status table, verify the dongle PHY status (RSSI, MODE, etc). 84
1 2 | Label and location | ID Label/Location Info | 186.18 KiB | December 06 2021 |
- Model: NBX-R1000-RF Rev.5 Oapacicom Input :10-48VDC ===. 0.1-1A Made In Israel by Capacicom LTD. Foil Ase: 4 Hater PANAMA TATA Kfar-Neter 4059300, Israel"
www.capacicom.com S/N: 30AEA4AD0798 FCC ID: 2AYPY-NBX-R1000-RF FE C &
IC: 26856-NBX-R1000-RF IPX4 Lt This device complies with Part 15 of the FCC Rules and Industry Canada licence-exempt RSS standard(s). 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. y OQeapacicom Nene In erat by Capncicom LY. Portal Adress "4 tenlon, Ger-Weter 4059300, treet!
ECCI: ZAYPYNEXRIOOORF AC: ZSBSENEXRIOOORF; HVIN: 5.0 Model: NBX-R1000RF Rev.5 |
Input = 10-48VDC == 0.1-18 |
AQMMIQNAAN OULU AL S/N: 30AEA4AD0798
1 2 | Agent Authorization Rev 1.0 | Cover Letter(s) | 95.01 KiB | December 06 2021 |
Agent Authorization Company: Capacicom LTD Address: HaAlon 4 St. Intergame Bldg, P.O. 3720 Kfar-Neter 4059300, Israel Product Name: NBX-R1000-RF Model Number(s): NBX-R1000-RF Product Description: The NBX-R1000-RF is a smart IoT LPWAN repeater system with a transceiver Module which operates in the sub-1GHz ISM frequency spectrum and IP M&C over ETH/WiFi/BT. We authorize MiCOM Labs Inc., 575 Boulder Court, Pleasanton, California 94566, USA, to act on our behalf on all matters concerning the certification of above named equipment. We declare that MiCOM Labs Inc. is allowed to forward all information related to the approval and certification of equipment to the regulatory agencies as required and to discuss any issues concerning the approval application. Any and all acts carried out by MiCOM Labs on our behalf shall have the same effect as acts of our own. Signature:
Name: Dan Peleg Title: VP R&D Company: Capacicom LTD. 25 October 2021
1 2 | FCC Short & Long Term Confidentiality Request Rev4.1 | Cover Letter(s) | 161.47 KiB | December 06 2021 |
Confidentiality Request Letter To:
Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD Subject: Permanent Confidentiality Request for FCC ID: 2AYPY-NBX-R1000-RF We hereby request confidential treatment of information accompanying this application as outlined in table below:
Exhibits Technical Description Block Diagram Schematics Parts List Short-Term Confidentiality Long-Term Confidentiality Yes Yes Yes Yes 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. The applicant understands that pursuant to Section 0.457 & 0.459 of the Rules, disclosure of this application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely, Signature:
Name / title: Dan Peleg , VP R&D Contact information / address: Capacicom LTD, 4 HaAlon St. Intergama Bldg, PO Box 3720, Kfar-Neter 4059300, Israel
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2021-12-06 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
2 | 2412 ~ 2462 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2021-12-06
|
||||
1 2 | Applicant's complete, legal business name |
Capacicom LTD
|
||||
1 2 | FCC Registration Number (FRN) |
0030430300
|
||||
1 2 | Physical Address |
4 HaAlon St. Intergama Bldg
|
||||
1 2 |
3720
|
|||||
1 2 |
Kfar-Neter, N/A
|
|||||
1 2 |
Israel
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
c******@micomlabs.com
|
||||
1 2 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 | Grantee Code |
2AYPY
|
||||
1 2 | Equipment Product Code |
NBX-R1000-RF
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
D****** P****
|
||||
1 2 | Title |
VP R&D
|
||||
1 2 | Telephone Number |
+9727********
|
||||
1 2 | Fax Number |
+9729********
|
||||
1 2 |
d******@capacicom.com
|
|||||
app s | Technical Contact | |||||
1 2 | Firm Name |
Capacicom LTD
|
||||
1 2 | Physical Address |
Israel
|
||||
1 2 |
d******@capacicom.com
|
|||||
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 | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 2 | 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) | Smart IoT LPWAN repeater system. | ||||
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 | Original Equipment | ||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
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 | Output power listed is conducted power. The antenna used with this transmitter must be installed to provide a minimum separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi- transmitter product procedures. End-users must be provided with operating procedures for satisfying RF exposure compliance. | ||||
1 2 | Output power listed is conducted power. This device contains 20 and 40 MHz signal bandwidth. The antenna used with this transmitter must be installed to provide a minimum separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi- transmitter product procedures. End-users must be provided with operating procedures for satisfying RF exposure compliance. | |||||
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 |
Electrical and Electronics Laboratory, SII
|
||||
1 2 | Name |
Y**** R******
|
||||
1 2 | Telephone Number |
972-3********
|
||||
1 2 | Fax Number |
972-3********
|
||||
1 2 |
Y******@sii.org.il
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | CC | 2402 | 2480 | 0.0009 | |||||||||||||||||||||||||||||||||||
1 | 2 | 15C | CC | 902.2 | 922.3 | 0.2685 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2412.00000000 | 2462.00000000 | 0.0197000 |
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