• Out-of-Stock

LG01-S LoRa Gateway

€61.07

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.
LoRa Frequency
Quantity
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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:
1) ABP LoRaWAN node transmit in single frequency
2) Limitation OTAA
3) Private Protocol

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
DRA00004-868
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Specific References