RB924i-2nD-BT5&BG77 KNOT RB924i-2nD-BT5&BG77 KNOT LR8 kit RB924i-2nD-BT5&BG77 KNOT LR9 kit RB924i-2nD-BT5&BG77 Connecting Make sure your Internet service provider is allowing hardware change and will issue an automatic IP address; Connect your ISP cable to the first Ethernet port; Connect the device to the power source; Open network connections on your computer and search for MikroTik wireless network - connect to it; The configuration has to be done through the wireless network using a web browser or mo
1. The device can be mounted using provided DIN rail mount set. Designed to fit standard 35 mm x 7.5 mm DIN rails. Attach it with two provided screws to the device and attach the device to the DIN rail. The DIN rail is not provided in the package. 2. Alternatively, it is possible to attach the device to a wall, using the provided screw holes on the back of the unit. The device should be mounted in a way that the cable openings are pointing downward as shown in the picture.
Bluetooth version 5.2, antenna gain 2 dBi. If it is KNOT LR8 kit: LR8 card. If it is KNOT LR9 kit: LR9 card. Bluetooth antenna By default, the KNOT has a built-in internal antenna that can be used but it is also possible to connect an external antenna instead to increase Bluetooth operation range. This is relevant for the KNOT RB924i-2nD-BT5&BG77 devices.
U.FL to SMA pigtail and the external Bluetooth antenna are not provided with the package. GPS NB/CAT-M Attach your antennas to the SMA connectors: BG77 supports NB and GNSS. Both cannot be used together simultaneously. Please check the guide at - WWAN and GNSS priority automatization. External antennas must be connected to use the Narrow Band modem and GPS. Not provided with the package.
GPIO pinout GPIO pins are located on the board under the case as shown in the picture: ADC input/analog input (pin2 or pin3): note: Analog input voltage is 0-60 V. Theoretical resolution is 4 mV (14bit ADC). Analog input impedance is approximately 72K Ohm.
Tamper switch (pin5): note: Digital input voltage is 0-2.5 V max. Without PCB pull-up resistor: to receive a logical "0" on the pin, the voltage should be between 0-1.47 V; to receive a logical "1" on the pin, the voltage should be between 1.48-2.5 V. With PCB pull-up resistor: to receive a logical "0" on the pin, the voltage should be between 0-1.34 V; to receive a logical "1" on the pin, the voltage should be between 1.35-2.5 V.
Accessories The package includes the following accessories that come with the device: ADAPT1_ EU/US Switching Power Supply 24V, 1.2A, 28.8W, 86.8%, VI. CAB1_ USB A Female to Micro B cable. SET1_ K-47 wall mount set, two screws, and dowels. SET2_ K-74 Din rail mount set. Modbus connector, A+, B-. HGO-LTE-W antenna can be purchased separately. Operating system support The device supports RouterOS software version 6.48.1.
Reports Navigate to IoT>Bluetooth. You can find all broadcasting devices in the “Advertising reports” tab. In this menu, you can set up a filter by pressing the “Filter” icon. For example, knowing the MAC address of the device, you can set up a filter to only show specific reports. You can add more filter options using “+” icon. You can remove filter options using "-" icon. MQTT Broker configuration Navigate to IoT>MQTT. You can add a new broker via “+” button.
Properties Description Name Identification. Brokers name. Address IP address or FQDN name of the MQTT broker without ssl:// or tcp:// prefix. Port Network port of the broker. Usually, 1883 or 8883 (for SSL). SSL Enable/Disable Secure Socket Layer. If the server uses a self-signed certificate or certificate signed by a non-trusted CA, you have to upload the server's certificates file to RouterOS. Upload .
You can then specify the "Topic" (a string used by a broker to filter messages), "Message" (the message itself), "QoS" (indicates Quality of Service level for the message), and "Retain" (whether to retain the message or discard it) parameters. note: "Broker" and "Topic" field configuration is required. "Message", "QoS", and "Retain" can be optional or required - depends on how the server/broker is set up. MQTT with script scenario MQTT broker can be configured with scripts.
################################## Bluetooth ################################## :put ("[*] Gathering Bluetooth info...") :global btOldestAdvertisementTimestamp :if ([:typeof $btOldestAdvertisementTimestamp] = "nothing") do={ # First time this script has been run since booting, need to initialize # persistent variables :set $btOldestAdvertisementTimestamp 0 } :local btProcessingStart [/system clock get time] :local advertisements [/iot bluetooth scanners advertisements print detail \ as-value where \ epoch >
#################################### MQTT ##################################### :local message \ "{\ \"clientId\":\"$[/iot mqtt brokers get value-name=client-id \ [/iot mqtt brokers find name=$broker]]\",\ \"t\":0,\ \"v\":1,\ \"OldestAdvertisementTimestamp\":$btOldestAdvertisementTimestamp,\ \"locs\":[{\ \"id\":\"$[$minimizeMac address=$ifaceMac]\",\ \"tags\":[$advJson],\ \"ed\":{\ \"model\":\"$model\",\ \"sn\":\"$serialNumber\",\ \"ros\":\"$rosVersion\",\ \"cpu\":$cpuLoad,\ \"umem\":$usedMemory,\ \"fmem\":
The rest of the script configuration depends on the overall requirements. The script explains which exact parameters are configured to be published. Navigate to System>Scripts and add a new script there (name it, for example, script1). To run the script, you can use the command line: /system script run script1 HTTP fetch with script scenario Another way to publish data is to use HTTP (instead of MQTT). This can be achieved using fetch tool.
################################## Bluetooth ################################## :put ("[*] Gathering Bluetooth info...") :global btOldestAdvertisementTimestamp :if ([:typeof $btOldestAdvertisementTimestamp] = "nothing") do={ # First time this script has been run since booting, need to initialize # persistent variables :set $btOldestAdvertisementTimestamp 0 } :local btProcessingStart [/system clock get time] :local advertisements [/iot bluetooth scanners advertisements print detail \ as-value where \ epoch >
#################################### MQTT ##################################### :local message \ "{\ \"t\":0,\ \"v\":1,\ \"OldestAdvertisementTimestamp\":$btOldestAdvertisementTimestamp,\ \"locs\":[{\ \"id\":\"$[$minimizeMac address=$ifaceMac]\",\ \"tags\":[$advJson],\ \"ed\":{\ \"model\":\"$model\",\ \"sn\":\"$serialNumber\",\ \"ros\":\"$rosVersion\",\ \"cpu\":$cpuLoad,\ \"umem\":$usedMemory,\ \"fmem\":$freeMemory,\ \"psu\":$supplyVoltage,\ \"temp\":$boardTemp\ }\ }]\ }" :log info "$message"; :put ("[*] To
RB924i-2nD-BT5&BG77 TV7924BT5BG77 XMR201912BG77 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.
ES Por la presente, Mikrotīkls SIA declara que el tipo de equipo radioeléctrico RB924i-2nD-BT5&BG77 es conforme con la Directiva 2014/53/UE. El texto completo de la declaración UE de conformidad está disponible en la dirección Internet siguiente: https://mikrotik.com/products ET Käesolevaga deklareerib Mikrotīkls SIA, et käesolev raadioseadme tüüp RB924i-2nD-BT5&BG77 vastab direktiivi 2014/53/EL nõuetele. ELi vastavusdeklaratsiooni täielik tekst on kättesaadav järgmisel internetiaadressil: https://mikrotik.
(ES) Frecuencia de funcionamiento / potencia de salida máxima LTE FDD Band 20 (RU) Рабочая частота / максимальная выходная мощность LTE FDD Band 28 800 MHz / 21 dBm 700 MHz / 21 dBm (EN) This MikroTik device meets Maximum WLAN and LTE transmit power limits per ETSI regulations. For more detailed information see Declaration of Conformity above / (DE) Dieses MikroTik-Gerät erfüllt die maximalen WLAN- und LTE-Sendeleistung Grenzwerte gemäß ETSIBestimmungen.
CE Declaration of Conformity BG С настоящото Mikrotīkls SIA декларира, че този тип радиосъоръжение RB924iR-2nD-BT5&BG77&R11e-LR8 е в съответствие с Директива 2014/53/ЕС. Цялостният текст на ЕС декларацията за съответствие може да се намери на следния интернет адрес: https://mikrotik.com /products CS Tímto Mikrotīkls SIA prohlašuje, že typ rádiového zařízení RB924iR-2nD-BT5&BG77&R11e-LR8 je v souladu se směrnicí 2014/53/EU.
RO Prin prezenta, Mikrotīkls SIA declară că tipul de echipamente radio RB924iR-2nD-BT5&BG77&R11e-LR8 este în conformitate cu Directiva 2014/53 /UE. Textul integral al declaraiei UE de conformitate este disponibil la următoarea adresă internet: https://mikrotik.com/products SK Mikrotīkls SIA týmto vyhlasuje, že rádiové zariadenie typu RB924iR-2nD-BT5&BG77&R11e-LR8 je v súlade so smernicou 2014/53/EÚ. Úplné EÚ vyhlásenie o zhode je k dispozícii na tejto internetovej adrese: https://mikrotik.
(EN) Product Power Input Options (DE) Produkt Stromquellen Optionen (FR) Options d'entrée d'alimentation du produit (IT) Opzioni di ingresso alimentazione del prodotto (ES) Opciones de entrada de energía del producto (RU) Варианты входной мощности продукта (EN) DC Adapter Output Specification, (V/A) (DE) Ausgangsspezifikationen des Gleichstromadapters, (V/A) (FR) Spécifications de sortie de l'adaptateur de courant continu, (V/A) (IT) Specifiche di uscita dell'adattatore di corrente continua, (V/A) (ES) Esp
This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numérique de la classe [B] est conforme à la norme NMB-003 du Canada. CAN ICES-003 (B) / NMB-003 (B) Bluetooth Qualified Product This product has successfully completed Bluetooth Qualification Process. For more information on Bluetooth Qualified products please use the following link: https://launchstudio.bluetooth.
