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Milesight UG67 LoRaWAN Outdoor Gatway 4G
Delivery time: Est. delivery 7d
Milesight UG67 is industrial LoRaWAN Gateway for outdoor use with built-in 4G, WIFI and Ethernet.
UG67 is part of an entire ecosystem with sensors, gateways and cloud services.
Complete ecosystem but Cloud portal
Milesight's LoRa ecosystem makes it extremely easy to build your own LoRa network without specialist skills. All you need to do to get started is: create a Cloud account, choose the appropriate internet connection for the UG67 LoRaWAN gateway (4G, WIFI or Ethernet) and enter the serial number of your gateway(s) and sensors in the cloud portal and you can start design your own portal with all the information that is important to you.
The cloud portal is free for up to 10 nodes (LoRa gateways or LoRa devices). Each LoRa device can then have many different sensors or functions. For example, a room unit can monitor temperature, carbon dioxide, brightness, humidity, the amount of organic compounds (harmful substances).
For customers who need more units or want to use several users or take reports, you can upgrade to PRO- the version of the Cloud portal.
The Cloud portal runs on servers in Germany (for us in Europe).
This model of UG67 comes with two detachable LoRa antennas so that you can place the gateway and the antenna for the best LoRa coverage. It is IP67 rated (completely waterproof).
A UG67 provides approx. 10 km range in open terrain and approx. 2 km range in an urban environment (depending on location).
A UG67 LoRaWAN Gateway can, for example, provide LoRa coverage outdoors in both urban environments and open terrain. Several LoRaWAN gateways can be connected to the Cloud portal to expand the coverage area as needed.
The flexible Internet connection with 4G, WIFI and Ethernet means that you can easily get started even if you do not have network access on site.
The UG67 LoRaWAN Gateway is the solution regardless of whether you want to monitor the air environment in office premises, the amount of rubbish in the municipality's rubbish bins, the water level in the tanks, control lighting in the warehouse or measure the humidity in the soil on the plantation and then automatically control the irrigation according to the humidity in the earth.
Simply complete with optional LoRa devices and combine your own system.
The UG67 has a built-in Super Capacitor that keeps the device running during 1 minute under-current interruption. This is enough for the UG67 to be able to alert the cloud portal about the power outage.
Milesight IoT Cloud can also control LoRa devices based on different measurement values. For example, you can measure the humidity in the soil and activate the irrigation if it gets too dry. You can also combine LoRaWAN with existing SCADA/ModBus systems if you want to retrieve data from existing facilities. Many facilities with control systems are not connected to the outside world. Now you can use
For those of you who are already a LoRaWAN specialist, the UG67 can of course be connected to other Cloud systems and LoRaWAN devices.
The UG67 has an advanced Semtech SX1302 LoRa chip and its own built-in server and supports Semtech's latest Packet Forwarder and is compatible with most things such as AWS IoT Core, The Things Network, ChirpStack, LORIOT, Everynet and more.
And if you want to build automation directly in UG67, there are both Node- RED and Python built into the device
UG67 is supplied with a Powersupply but can also be powered via PoE for flexible placement
Product Catalog LoRaWAN Sensors
Explanation of frequency bands
When choosing an antenna, pay attention to which frequency bands the antenna supports. Depending on which operator and where the antenna will be used, the frequency bands vary. Larger cities use 2600MHz while smaller towns use 800/900MHz with some support bands in between such as 1800/2100MHz.
A higher frequency band gives a higher speed but also has a shorter range. The same applies to the antenna, if you have a base station that transmits on 2600MHz, your antenna, antenna cable and the location of the antenna become more important than on a lower frequency band. Explanation of signal loss we will go through soon. Higher frequency bands also mean shorter range from the base station.
450MHz (coverage band) also known as the Net1 band is the frequency band that covers the most area in Sweden. Therefore, Net1 is known to be able to have reception where other operators don´t have a chance, but with low download and upload speeds. The reason why this band is called Net1 is because that the company Net1 has exclusive rights to this frequency band.
800MHz (coverage band) is used by all common operators, excluding Net1. The low frequency band means that 800MHz covers a lot of space. Therefore, the band is used outside big cities or smaller towns. 800MHz is the most used frequency band around Europe.
900MHz (coverage band) is the band that Tele2 and Telenor initially used as coverage band. 900MHz is a more unusual LTE band and in the beginning the band caused some problems when the clients (mobile phones etc.) could not connect to 900MHz. Today, the mobile phone manufacturers have adapted the mobile phones to be able to communicate on 900MHz.
1800MHz (capacity band) is the latest frequency band launched. All operators today use this band in metropolitan centers (apart from Net1).
2600MHz (capacity band) is a very well-used frequency band all over Europe. 2600MHz is the highest frequency band used for LTE, this means that the band also has the shortest range compared to 800/900MHz. Due to the high capacity, the band is used in metropolitan environments where many base stations are required to cover as much surface as possible and have as high a capacity as possible.
Frekvensplan 4G
Frequency band | Net1 | Tele2 | Telia | Telenor | Tre |
---|---|---|---|---|---|
450MHz (Band 31) | |||||
800MHz (Band 20) | |||||
900MHz (Band 8) | |||||
1800MHz (Band 3) | |||||
2600MHz (Band 38) |