Alternative LoRaWAN Gateway - Industrial Edition Wanna deploy
LoRaWAN solutions in outdoor scenarios? Check out our
industrial-grade product - SenseCAP LoRaWAN gateway. It's IP66
rated, featuring robustness, reliability, and ultra-long-distance
communication up to 10km, highly suitable for long-term outdoor
application scenarios. Tip Don’t forget to check our blog LoRa
and LoRaWAN for Arduino and Raspberry Pi to learn more about how
to build an Arduino or Raspberry Pi LoRa or LoRaWan project!
Features Based on Lora Concentrator Engine: Semtech SX1301
Sensitivity up to -142.5 dBm @300bps Max output power up to 27dBm
Range up to 15 km (Line of ), ~2km in dense urban areas
Designed for 915MHz US/Australia LoRA ISM band Emulates 49 x LoRa
demodulators, 10 programmable parallel demodulation paths, 8
uplink ch, 1 downlink ch Automatic adaptive to spreading factor
from SF12 to SF7 in each of 8 channels Operating Temperature: -40
to 85 ℃ 2x SX1257 as Tx/Rx front-ends RP-SMA connector for 915MHz
antenna Fully support Class A, Class B, Class C FCC & CE
compliance Description In the past, GSM is the most commonly-used
connectivity method used in commercial wide-area wireless
scenarios, but one of its disadvantages is high power
consumption. Lora is a perfect long-range protocol to create
low-power, wide area networks (LPWAN). To manage communication
between LoRa gateways and LoRa end-node devices, LoRaWAN is
defined as one of the network layer protocols/routing protocols,
it enables easy management of device interaction, configuration,
data transmission, etc. LoRaWAN empowers a device to have the
capability to manage massive end-nodes. So if your application is
to manage a huge number of IoT devices like 1000+ devices within
a large area in a private network and just need to transmit a
small a of data, a LoRaWAN network would be one of your best
options. You need 3 basic things to build your own LoRaWAN
network: a LoRaWAN Gateway, at least one LoRa Node, and a LoRa
server where you can monitor all your devices. To lower the
barrier of building a LoRaWAN gateway, we provide the kit of
LoRa/LoRaWAN Gateway - 915MHz for Raspberry Pi 3 to give you a
quick and easy start. Please choose the corresponding ISM
frequency plan for LoRaWAN gateway based on your location. The
frequency plan we use in this kit is 902MHz – 928MHz which can be
used in places like USA, Canada, South America, Japan, Australia,
South Korea, for more info, please check each country’s
regulation. This kit includes 1 main module and some required
accessories: 1) RHF0M301- a LoRaWAN gateway module based on
SX1301. RHF0M301 is a joint effort by RisingHF and Seeed, it is a
high-performance LoRa/LoRaWAN module based on Semtech SX1301
which can support in total 10 programmable parallel channels,
including 8 multi- SF channel (IF0~IF07), 1 standard LoRa channel
(IF8) and 1 FSK channel (IF9),the network capacity is so much
bigger compares to a single-channel gateway and enable you to
manage more clients. 2) RHF4T002 – an RPi adapter to bridge
Raspberry Pi 3 and RHF0M301 With its 24-pin DIP port and 40-pin
general Raspberry Pi Header, users can easily connect RHF0M301 to
Raspberry Pi 3. RPi 3 is able to send the collected data through
Ethernet and WiFi. 3) A 16G Micro SD card An OS image with Loriot
server and local server is flashed in Micro SD card to help you
get started easily. If you prefer to use other servers like TTN,
RisingHF also provides a guideline to help you switch to other
services. Besides 915MHz gateway, we also have the 868 MHz
gateway to fit in more countries. To build a private LoRaWAN
network, the next thing you need is a LoRa node, please pair the
gateway with Seeeduino LoRaWAN. If what you want to build is a
tracker network, this one can help you. If you need a commercial
gateway, take a look at SenseCAP Why use LoRa and LoRaWAN
technology? There are several advantages of using LoRa and
LoRaWAN technology. They are: Long Range Connects devices over
longer range compared to other wireless communication technology
like Wi-Fi or BLE Low Power Devices like sensors working in a
LoRa network do not require much power. Battery replacement costs
will be minimized as battery life can be up to a few years.
Secure Features end-to-end AES128 encryption, mutual
authentication, integrity protection, and confidentiality.
Standardized Offers device interoperability and global
availability of LoRaWAN networks for speedy deployment of IoT
applications anywhere Low Cost Reduces battery replacement
expenses and operating expenses (eg. LoRa operates on unlicensed
frequency spectrums = no fees or license charges). Flexible Like
Wi-Fi, LoRaWAN operates in the unlicensed band and supports
indoor applications; like Cellular, LoRa Technology is highly
secure from end devices to the application server and is suitable
for outdoor applications. With these features, they are flexible
and efficient which makes them ideal for your indoors or outdoors
IoT applications which need to be installed in public, private or
hybrid networks. Note Note that this suite does not include
Raspberry Pi, you need to purchase Raspberry Pi 3B or 3B+
separately. The SD firmware included in the kit is suitable for
Raspberry Pi 3B and can be used at boot. But if you are using
3B+, you need to click here to update the firmware in the SD
card. If you are using Seeeduino LoraWAN as the Lora node, please
always plug a 3.7V Lipo battery into the Seeeduino LoraWAN board
in case USB power supply is not sufficient. Part List Gateway
module RHF0M301 – 915 x 1 RPi 3 Bridge RHF4T002 x 1 16GB Micro SD
Card – Class 10 x 1 USB to UART Adapter x 1 0dBi Rubber Duck
Antenna x 1 Micro USB Cable 20cm x1 Micro USB Cable 100cm x 1
RJ45 Ethernet Cable 200cm x 1 5V/2.1A American Standard power
supply with USB Type-A Output x 1 Update for the re_computer case
Technical details Dimensions 200mm x130mm x50mm Weight G.W 337g
Battery Exclude ECCN/HTS HSCODE 9023009000 USHSCODE 9023000000
UPC 841454119418 EUHSCODE 9023001000 COO CHINA RoHS 1