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Lantronix G526 4G Cat 4, GNSS, RS232, I/O
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MTBF Certifikat
FCC Certifikat
IC Certifikat
The G526 offers LTE CAT 4 gateway to protect your long-term IoT application investment. Designed for industrial applications with built-in security to help prevent cyber-attacks, the G526 delivers a robust and reliable solution for the most mission-critical applications. The G526 devices come pre-enabled with the easy-to-use ConsoleFlow™ device management and cellular Connectivity Services cloud platform applications to increase operational efficiency directly. The rugged, compact, highly secure, industrial-grade cellular IoT gateways address the demands of application-specific use cases.
- Fieldbus protocols conversion suite
- Industrial-grade design
- Secure crypto element
The G526 series IoT cellular gateways provide a robust solution for many industrial applications and are available in three application-specific SKUs.
G526 Industrial
LTE Cat 4 Ethernet, Serial, I/O, Fieldbus conversion and other industrial protocols
G526 Security
LTE Cat 4, Built-in cryptographic secure element and PSE-PoE
G526 Transport
LTE Cat 4, GNSS, accelerometer, CAN Bus reading, and other tracking features
Built-in Security Framework with Lantronix InfiniShield™
The highest level of security for mission-critical applications is key to preventing growing cyber security threats. InfiniShield™ Security is a comprehensive suite of built-in device security, including a secure element chip to prevent unauthorized access of confidential information.
Industrial Design and Protocols
The G526 is designed specifically for industrial applications with Ethernet, Serial, I/O, and a protocol conversion suite. Connect virtually any factory equipment or vehicle using fieldbus protocols and CAN Bus.
Lantronix Software Services
ConsoleFlow – secure cloud platform to manage remote IoT gateways through a single pane of glass.
Connectivity Services – North American and global cellular data plans and VPN security with an easy-to-use cloud platform to manage your SIMs and services.
Cellular | LTE CAT 4 with 3G and, depending on the regional variant, 2G fall-back modes on industrial pack |
Wi-Fi & Bluetooth Operation | 2T2R Wi-Fi 5; via an RP-SMA antenna connector Bluetooth 5.1; via Wi-Fi’s rightmost RP-SMA antenna connector Optional: 2T2R WiFi6/6E |
Ethernet | 10/100 base Ethernet: One LAN port and one WAN port, user-reconfigurable as second LAN port; via RJ-45 headers fitted with two LEDs |
PSE-PoE+ | Security Pack Variant Only – 30 W per LAN port – requires U301 accessory |
Serial Communication | RS-232 Full implementation; via a 9-pin sub-D header RS-485 via 5-pin COMBICON header (sold separately) |
USB | One (1) USB host port; via a Type-A header |
I/Os | I/OS (2) with common ground; via a 3-pin COMBICON header and a tool-less plug (I/O header and plugs are not provided) User-configurable, each one independently from the other, as (i) analogue input; or (ii) analogue input suited to current loop (aka 4 mA ~ 20 mA) sensors; or (iii) digital output INPUT: 0 V dc ~ 2.5 V dc -> ZERO; 3 V ~ 50 V dc -> ONE OUTPUT: open collector; 200 mA max.; 50 V dc max. |
Dual SIM | Dual SIM / Single standby; via two **mechanically secure mini-SIM holders** |
Location Services & 3 Axis Accelerometer | Qualcomm® IZat™ location services, gen. 8c/9c or u-blox M8 (transport pack) Concurrent GPS and GLONASS (security gateway 5G model) 3-axis accelerometer from STMicroelectronics LIS331DLH |
Memory & Data Storage Security Chip | RAM - DDR2 SDRAM 256MB SPI Flash Memory - 8MB User Data Storage - Internal: via the 256 MB of parallel NAND Flash memory mentioned earlier - External: via a user-accessible microSD card (not provided), and USB Flash drive (not provided) - Secure Element from MICROCHIP ATECC608 on security variant |
MFF SIM(s) | Combination of (i) ‘MFF + mini’; or (ii) ‘mini + MFF’; or (iii) ‘MFF + MFF’ SIMs, substituted for the standard two mini-SIM trays. Contact us for the options. |
Physical Description | Brushed aluminum alloy Size: (MM) 131.5 x 81.27 x 25 without connectors Weight: approximately 300g Operating Status LEDs: Nine as green for (i) POWER; blue for (ii) SIM; (iii) Wi-Fi; amber for (iv) Activity; (v) Network; (vi) Signal; yellow for user-programmable (vii) LED #1; (viii) LED #2; red for (ix) ALERT |
Temperature & Humidity Ranges | Operating: -30 °C ~ +70 °C; up to 95% RH Storage: -40 °C ~ +85 °C; up to 95% RH |
CPU | ARM926EJ-S-based CPU running at 600 MHz Built-in 32 KB instruction cache and 32KB data cache |
Power | Input voltage: 10.8 ~ 60 V DC 3-pin Nano-Fit™ header Last Gasp: 100-second long, approximately. 2 96 mWh Li-ion batteries (not functional below -10 °C) Digital Input (Ignition): One (1) digital input, on the third pin of the 3-pin header Input: 0 V DC ~ 2.5 V DC => ZERO; 3 V DC ~ 50 V DC => ONE Power off Timekeeping: Dedicated RTC with 100-day data retention period, approximately 15 mWh lithium manganese battery (not functional below -20 °C) |
Administration & Network Protocols | Web-based user interface, setup wizard, console log viewer, save / load configuration, NTP, SMS / OTA remote configuration, TR-069-capable |
Redundancy | Ethernet, Cellular, Wi-Fi – configurable as failover or load balancing |
Resilience | Network connectivity watchdog (configurable), internal application watchdog |
Wi-Fi | Client or Access point (approx. 12 users), WEP, WPA, WPA-PSK / WPA2-PSK security modes |
Device Management Services | Lantronix ConsoleFlow platform or third-party platforms |
SDK | Use G520 SDK to create custom packages and build custom firmware images |
Performance & Fault Management | Real time processor load and interface (WAN / LAN / Wi-Fi), traffic analysis, ICMP, trace-route, NS lookup |
Routing | DHCP, static routing, port forwarding, traffic routing, static /dynamic DNS, DNS proxy, NAT, STP |
VPN & Tunneling Protocols | PPTP client, L2TP, OpenVPN client / server / passthrough, GRE, IPsec up to 4 channel |
Security | Zone-based firewall, VLAN, DMZ, HTTPS local and remote connection, SIM PIN |
Industrial Protocols | Following industry protocols supported on MH - EtherCAT - DLMS client - DNP3 Outstation - Modbus master - IEC104 slave and IEC 101 master |
Cellular | LTE CAT 4 with 3G and, depending on the regional variant, 2G fall-back modes on industrial pack |
Wi-Fi & Bluetooth Operation | 2T2R Wi-Fi 5; via an RP-SMA antenna connector Bluetooth 5.1; via Wi-Fi’s rightmost RP-SMA antenna connector Optional: 2T2R WiFi6/6E |
Ethernet | 10/100 base Ethernet: One LAN port and one WAN port, user-reconfigurable as second LAN port; via RJ-45 headers fitted with two LEDs |
PSE-PoE+ | Security Pack Variant Only – 30 W per LAN port – requires U301 accessory |
Serial Communication | RS-232 Full implementation; via a 9-pin sub-D header RS-485 via 5-pin COMBICON header (sold separately) |
USB | One (1) USB host port; via a Type-A header |
I/Os | I/OS (2) with common ground; via a 3-pin COMBICON header and a tool-less plug (I/O header and plugs are not provided) User-configurable, each one independently from the other, as (i) analogue input; or (ii) analogue input suited to current loop (aka 4 mA ~ 20 mA) sensors; or (iii) digital output INPUT: 0 V dc ~ 2.5 V dc -> ZERO; 3 V ~ 50 V dc -> ONE OUTPUT: open collector; 200 mA max.; 50 V dc max. |
Dual SIM | Dual SIM / Single standby; via two **mechanically secure mini-SIM holders** |
Location Services & 3 Axis Accelerometer | Qualcomm® IZat™ location services, gen. 8c/9c or u-blox M8 (transport pack) Concurrent GPS and GLONASS (security gateway 5G model) 3-axis accelerometer from STMicroelectronics LIS331DLH |
Memory & Data Storage Security Chip | RAM - DDR2 SDRAM 256MB SPI Flash Memory - 8MB User Data Storage - Internal: via the 256 MB of parallel NAND Flash memory mentioned earlier - External: via a user-accessible microSD card (not provided), and USB Flash drive (not provided) - Secure Element from MICROCHIP ATECC608 on security variant |
MFF SIM(s) | Combination of (i) ‘MFF + mini’; or (ii) ‘mini + MFF’; or (iii) ‘MFF + MFF’ SIMs, substituted for the standard two mini-SIM trays. Contact us for the options. |
Physical Description | Brushed aluminum alloy Size: (MM) 131.5 x 81.27 x 25 without connectors Weight: approximately 300g Operating Status LEDs: Nine as green for (i) POWER; blue for (ii) SIM; (iii) Wi-Fi; amber for (iv) Activity; (v) Network; (vi) Signal; yellow for user-programmable (vii) LED #1; (viii) LED #2; red for (ix) ALERT |
Temperature & Humidity Ranges | Operating: -30 °C ~ +70 °C; up to 95% RH Storage: -40 °C ~ +85 °C; up to 95% RH |
CPU | ARM926EJ-S-based CPU running at 600 MHz Built-in 32 KB instruction cache and 32KB data cache |
Power | Input voltage: 10.8 ~ 60 V DC 3-pin Nano-Fit™ header Last Gasp: 100-second long, approximately. 2 96 mWh Li-ion batteries (not functional below -10 °C) Digital Input (Ignition): One (1) digital input, on the third pin of the 3-pin header Input: 0 V DC ~ 2.5 V DC => ZERO; 3 V DC ~ 50 V DC => ONE Power off Timekeeping: Dedicated RTC with 100-day data retention period, approximately 15 mWh lithium manganese battery (not functional below -20 °C) |
Administration & Network Protocols | Web-based user interface, setup wizard, console log viewer, save / load configuration, NTP, SMS / OTA remote configuration, TR-069-capable |
Redundancy | Ethernet, Cellular, Wi-Fi – configurable as failover or load balancing |
Resilience | Network connectivity watchdog (configurable), internal application watchdog |
Wi-Fi | Client or Access point (approx. 12 users), WEP, WPA, WPA-PSK / WPA2-PSK security modes |
Device Management Services | Lantronix ConsoleFlow platform or third-party platforms |
SDK | Use G520 SDK to create custom packages and build custom firmware images |
Performance & Fault Management | Real time processor load and interface (WAN / LAN / Wi-Fi), traffic analysis, ICMP, trace-route, NS lookup |
Routing | DHCP, static routing, port forwarding, traffic routing, static /dynamic DNS, DNS proxy, NAT, STP |
VPN & Tunneling Protocols | PPTP client, L2TP, OpenVPN client / server / passthrough, GRE, IPsec up to 4 channel |
Security | Zone-based firewall, VLAN, DMZ, HTTPS local and remote connection, SIM PIN |
Industrial Protocols | Following industry protocols supported on MH - EtherCAT - DLMS client - DNP3 Outstation - Modbus master - IEC104 slave and IEC 101 master |
Förklaring av frekvensband
När du ska välja antenn, var uppmärksam på vilka frekvensband som antennen har stöd för. Beroende på vilken operatör och vart antennen kommer användas varierar frekvensbanden. Större städer använder sig av 2600MHz medan mindre orter använder sig av 800/900MHz med lite stödband emellan så som 1800/2100MHz.
Ett högre frekvensband ger en högre hastighet men har även kortare räckvidd. Detsamma gäller antennen, har du en basstation som sänder på 2600MHz så blir din antenn, antennkabel och placeringen av antennen viktigare än på ett lägre frekvensband. Förklaring av signalförlust går vi igenom snart. Högre frekvensband betyder även kortare räckvidd från basstation.
450MHz (täckningsband) även känt som Net1-bandet är det frekvensbandet som täcker mest yta i Sverige. Därför är Net1 kända för att kunna ha mottagning där andra operatörer inte har en chans, men med låg ned- och uppladdningshastigheter. Anledningen till varför detta band kallas för Net1 är pga. att företaget Net1 har ensamrätt på detta frekvensband.
800MHz (täckningsband) används av alla vanliga operatörer om man bortser från Net1. Det låga frekvensbandet gör så att 800MHz täcker mycket yta. Därför används bandet utanför storstäder eller mindre orter. 800MHz är det mest använda frekvensbandet runt om i Europa.
900MHz (täckningsband) är det bandet som Tele2 och Telenor inledningsvis använde som täckningsband. 900MHz är ett mer ovanligt LTE-band och i början orsakade bandet lite problem när klienterna (mobiltelefoner m.m.) inte kunde ansluta mot 900MHz. Idag så har mobiltillverkarna anpassat mobilerna för att kunna kommunicera på 900MHz.
1800MHz (kapacitetband) är det senaste frekvensbandet som lanserats. Alla operatörer använder idag detta band i storstadskärnor (bortsett från Net1).
2600MHz (kapacitetband) är ett väldigt välanvänt frekvensband runtom hela Europa. 2600MHz är det högsta frekvensbandet som används för LTE, detta innebär att bandet även har kortast räckvidd jämfört med 800/900MHz. På grund av den höga kapaciteten så används bandet i storstadsmiljöer där det krävs många basstationer för att täcka så mycket yta som möjligt och ha så hög kapacitet som möjligt.
Frekvensplan 4G
Frekvensband | Net1 | Tele2 | Telia | Telenor | Tre |
---|---|---|---|---|---|
450MHz (Band 31) | |||||
800MHz (Band 20) | |||||
900MHz (Band 8) | |||||
1800MHz (Band 3) | |||||
2600MHz (Band 38) |