- Out-of-Stock
LG01-S LoRa Gateway
€73.89
VAT included
Open source single channel LoRa Gateway.
- It lets you bridge LoRa wireless network to an IP network via WiFi, Ethernet, 3G or 4G cellular.
- The LoRa wireless allows users to send data and reach extremely long ranges at low data-rates.
- It provides ultra-long range spread spectrum communication and high interference immunity.
- 14 pins connector for digital/analog I/O.
Política de devolución (editar con el módulo Información de seguridad y confianza para el cliente)
LG01-S has WiFi interface, Ethernet port and USB host port. These Interfaces provide flexible methods for users to connect their sensor networks to Internet.
LG01-S runs Open Source OpenWrt system, user are free to modify the source file or compile the system to support their customized applications.
Features:
- Open Source OpenWrt system
- Low power consumption
- Firmware upgrade via Web
- Software upgradable via network
- Auto-Provisioning
- Built-in web server
- Managed by Web GUI, SSH via LAN or WiFi
- Support WiFi AP, Client or Ad-Hoc(Mesh) mode
- Internet connection via LAN, WiFi, 3G or 4G
- Failsafe design provides robustly system
- Arduino IDE compatible. Easy to program.
- LoRa band available at 433/868/915/920 Mhz
- Max range in LoRa : 5 ~ 10km
Applications:
- Wireless Alarm and Security Systems
- Home and Building Automation
- Automated Meter Reading
- Industrial Monitoring and Control
- Long range Irrigation Systems
- GPS tracker,etc
Specifications:
Linux Side:
- Processor: 400MHz, 24K MIPS
- Flash: 16MB ; RAM: 64MB
MCU/LoRa Side:
- MCU: ATMega328P
- Flash:32KB, RAM:2KB
- LoRa Chip: SX2176/78
Cellular 4G LTE (optional):
- Quectel EC20 LTE module (Click the link and choose the right model when order)
- Micro SIM Slot
- Internal 4G Antenna + External 4G Sticker Antenna.
- Up to 100Mbps downlink and 50Mbps uplink data rates
- Worldwide LTE,UMTS/HSPA+ and GSM/GPRS/EDGE coverage
- MIMO technology meets demands for data rate and link reliability in modem wireless communication systems
Cellular 3G UMTS/HSPA+ (optional):
- Quectel UC20 LTE module (Click the link and choose the right model when order)
- Micro SIM Slot
- Internal 3G/4G Antenna + External 3G/4G Sticker Antenna.
- Up to 14.4Mbps downlink and 5.76Mbps uplink data rates
- Worldwide UMTS/HSPA+ and GSM/GPRS/EDGE coverage
- High-quality data and image transmission even in harsh environment
- Primary and diversity receive paths are designed for equivalent noise-figure performance
Interfaces:
- 10M/100M RJ45 Ports x 2
- WiFi : 802.11 b/g/n
- LoRa Wireless
- Power Input: 12V DC
- USB 2.0 host connector x 1
- USB 2.0 host internal interface x 1
- 14 position screw terminal
Compare List for Dragino LoRa Gateway |
||||
| Item | LG01-P/LG01-S/OLG01 | LG01-N/OLG01-N | LG02/OLG02 | LG308 |
| Chipset Solution |
Based on SX1276/SX1278 LoRa module solution | Based on SX1301/SX1308 LoRa concentrato solution | ||
| Overall |
Due to hardware chipset limiation, this solution can only work for: |
SX1301/SX1308 is the standard LoRaWAN gateway solution, it can works with: 1) Standard LoRaWAN device. 2) Private LoRa protocol. |
||
| Description | Single Channel LoRa Gateway | Single Channel LoRa Gateway | Dual Channels LoRa Gateway | 8+1 Channel LoRaWan Gateway |
| Open Source |
Yes | Yes | Yes | Yes |
| LoRa Module |
1 x SX127x | 1 x SX127x | 2 x SX127x | 1 x SX1308/SX1301 + 2 x SX1257 |
| TX/RX Channels |
1 x TX o 1 RX, half duplex | 1 x TX o 1 RX, half duplex | 1 x RX + 1 TX, Full duplex | 8 x RX + 1 TX, Full duplex |
| LoRa Controller |
Atmega328P MCU | AR9331 24K MIPS / Linux | AR9331 24K MIPS / Linux | AR9331 24K MIPS / Linux |
| CPU | AR9331 24K MIPS | AR9331 24K MIPS | AR9331 24K MIPS | AR9331 24K MIPS |
| Operation System |
OpenWrt | OpenWrt | OpenWrt | OpenWrt |
| LoRaWAN support |
ABP only | ABP only | LoRaWAN | Standard LoRaWAN |
| End Node Compatibility | End Node must work in single Frequency and have a longer RX time | End Node must work in single Frequency and have a longer RX time | End Node must work in single Frequency and have a longer RX time | Any LoRaWAN Compatible End node |
| LoRa Protocol |
Private LoRa or Packet Forward | Private LoRa or Packet Forward | Private LoRa or Packet Forward LoRa Repeater |
Private LoRa or Packet Forward |
| 3G/4G Cellular Interface | Optional Built-in 3G/4G Cellular module | Optional Built-in 3G/4G Cellular module | Optional Built-in 3G/4G Cellular module | Optional General Mini PCI-E Cellular module |
| Capacity: 3 LoRa Nodes Sent out packet in ABP mode (SF7) every 10 seconds. 3 packets per 10 seconds | 60% Packet Lost in the network | 1% Packet Lost | 1% Packet Lost | No Packet Lost |
| Recommend Application Enviroment: | Lab Test Enviroment, Study | 1 ~ 300 a) Limited LoRaWAN,All LoRa End node base on ABP, Single Frequency, b) Network have less downlink stream c) Private LoRa Protocol |
1 ~ 300 a) Limited LoRaWAN, All LoRa End node base on ABP, Or modified OTAA protocol. b) Private LoRa Protocol |
1~1000 a) Standard LoRaWAN network with LoRaWAN End node from different supplier b) Private LoRa Protocol |
| Program Method for LoRa | Arduino | OpenWrt/ Linux | OpenWrt/ Linux | OpenWrt/ Linux |
| Type of Network Cell | Femotocell | Femotocell | Femotocell | Macrocell/Picocell |
| Production Status: | In production | In production | In production | In production |
Open source single channel LoRa Gateway.
- It lets you bridge LoRa wireless network to an IP network via WiFi, Ethernet, 3G or 4G cellular.
- The LoRa wireless allows users to send data and reach extremely long ranges at low data-rates.
- It provides ultra-long range spread spectrum communication and high interference immunity.
- 14 pins connector for digital/analog I/O.