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Inside the heavy-duty case, there is a powerful 2.4 GHz wireless access point with a Gigabit Ethernet port, built-in GPS and two internal LTE antennas. There are two miniPCIe slots – one is used for the LTE modem, the other one is populated with the concentrator gateway card for LoRa® technology.
There are three powering options: DC jack, PoE-in and automotive. We have even seen users powering the LtAP with a 20 000 mAh power bank throughout the day!
Internet-of-things has never been so affordable
To fully understand what this device can do, we need to talk about Internet-of-things. Let’s start with an example. Imagine a farmer who has cattle, an irrigation system for the crops, and storage for the goods. On a day-to-day basis he needs to:
• track the animals;
• monitor the grain stock level;
• control the irrigation system
For all these tasks the farmer can use low-cost wireless sensors. By connecting them to the LtAP - he can gather the real-time data, combine it with the location information of the vehicle, and send it to the cloud via high-speed LTE. Now all the information he needs to monitor and plan the growth of his farms is in one place. So simple and so handy. The wireless technology behind this is called LoRa®, which stands for Long Range. It requires very low power. That’s why LoRa® is the best way to build your Internet-of-things solutions. LoRa® can be used for anything from smart homes to agriculture, supply chains, logistics and even smart cities. Monitor parking spaces, track utility services, measure environmental data and so on - the possibilities are endless.
There is even a free server infrastructure that you can use - The Things Network, fully supported by the LtAP LR8 LTE kit. With a large community of enthusiasts and developers around the world, you will never be alone with your questions regarding the LoRa® network.
Perfect for logistics and tracking
There are 3 MiniSIM slots you can use to set up automatic switching between mobile operators. Very convenient if you have to cross the border regularly. The device features two internal LTE antennas, but you can use the U.FL connectors to add external antennas of your choice for even better coverage. The same goes for the GPS – you can attach an external antenna as well. By the way, we have provided a simple application example on the RouterOS documentation website, so you can start real-time location tracking right away!
The Things Network
Our products for LoRa® are ready to work with “The Things Network” - the famous open source infrastructure that provides free LoRa® network coverage and has tons of apps for your needs. With the help of “The Things Network” you can get started with the Internetof- things within a day. And it is easily upgradable to enterprise-grade network “The Things Industries”.
The setup is so easy - anyone can learn it. No need to reinvent the wheel – join “The Things Network” to save time and energy with smart solutions!
Specifications
Details | |
---|---|
Product code | RBLtAP-2HnD&R11e-LTE&LR8 |
Architecture | MMIPS |
CPU | MT7621A |
CPU core count | 2 |
CPU Threads count | 4 |
Dimensions | 170 x 162 x 40 mm |
RouterOS license | 4 |
Operating System | RouterOS |
PoE in | Passive PoE |
Size of RAM | 128 MB |
Storage size | 16 MB |
Storage type | FLASH |
MTBF | Approximately 200'000 hours at 25C |
Tested ambient temperature | -40°C to 70°C |
Powering
Details | |
---|---|
Number of DC inputs | 3 (Automotive, PoE-IN, DC jack) |
DC jack input Voltage | 12-30 V |
Automotive input Voltage | 12-27 V |
Max power consumption | 24 W |
Max power consumption without attachments | 9 W |
FAN count | Passive |
PoE in | Passive PoE |
PoE in input Voltage | 12-30 V |
Mobile
Details | |
---|---|
2G Category | Class12 |
2G bands | 2 (1900MHz) / 3 (1800MHz) / 5 (850MHz) / 8 (900MHz) |
3G Category | R7 (21Mbps Downlinks, 5.76Mbps Uplink) |
3G bands | 1 (2100MHz) / 2 (1900MHz) / 5 (850MHz) / 8 (900MHz) |
LTE Category | 4 (150Mbps Downlink, 50Mbps Uplink) |
LTE FDD bands | 1 (2100MHz) / 2 (1900MHz) / 3 (1800MHz) / 7 (2600MHz) / 8 (900 MHz) / 20 (800MHz) |
LTE TDD bands | 38 (2600MHz) / 40 (2300MHz) |
Wireless specifications
Details | |
---|---|
Wireless 2.4 GHz Max data rate | 300 Mbit/s |
Wireless 2.4 GHz number of chains | 2 |
Wireless 2.4 GHz standards | 802.11b/g/n |
Antenna gain dBi for 2.4 GHz | 2.5 |
Wireless 2.4 GHz chip model | AR9382 |
Wireless 2.4 GHz generation | Wi-Fi 4 |
Ethernet
Details | |
---|---|
10/100/1000 Ethernet ports | 1 |
Peripherals
Details | |
---|---|
Serial port | RS232 |
Number of USB ports | 1 |
USB Power Reset | Yes |
USB slot type | USB type A |
Max USB current (A) | 1 |
Other
Details | |
---|---|
PCB temperature monitor | Yes |
Voltage Monitor | Yes |
Certification & Approvals
Details | |
---|---|
Certification | CE, EAC, ROHS |
IP | IP54 |
Wireless specifications
2.4 GHz | Transmit (dBm) | Receive Sensitivity |
---|---|---|
1MBit/s | 25 | -100 |
11MBit/s | 25 | -94 |
6MBit/s | 26 | -96 |
54MBit/s | 23 | -78 |
MCS0 | 26 | -96 |
MCS7 | 22 | -73 |
Included parts
Ethernet test results
RBLtAP-2HnD&R11e-LTE&LR8r2 | MT7621A (880Mhz) 1G one port test | ||||||
Mode | Configuration | 1518 byte | 512 byte | 64 byte | |||
kpps | Mbps | kpps | Mbps | kpps | Mbps | ||
Bridging | none (fast path) | 81.3 | 987.3 | 235 | 962.6 | 1207.4 | 618.2 |
Bridging | 25 bridge filter rules | 81.2 | 986.1 | 175.3 | 718 | 177 | 90.6 |
Routing | none (fast path) | 81.3 | 987.3 | 234.9 | 962.2 | 1067.6 | 546.6 |
Routing | 25 simple queues | 81.2 | 986.1 | 216.2 | 885.6 | 222.5 | 113.9 |
Routing | 25 ip filter rules | 81.2 | 986.1 | 112.5 | 460.8 | 110 | 56.3 |
- All tests are done with Xena Networks specialized test equipment (XenaBay),and done according to RFC2544 (Xena2544)
- Max throughput is determined with 30+ second attempts with 0,1% packet loss tolerance in 64, 512, 1518 byte packet sizes
- Test results show device maximum performance, and are reached using mentioned hardware and software configuration, different configurations most likely will result in lower results