The Station Edition is a durable Lora device designed for high-performance radio frequency communication. It features a powerful PA for Lora communication, a rugged SMA antenna socket, and a variety of external IO interfaces. With a wide input voltage range, this device is suitable for both fixed and vehicle-mounted applications. The compact size and rugged construction make it an ideal choice for base stations in various scenarios.
| Editions | Station G3 | Station G2 | Station G1 |
|---|---|---|---|
| Core Research Areas | Adaptive LNA Control (Dynamic Gain/Impedance Matching & Disable) Modular Architecture |
Ultra-Low Noise Figure LNA for LoRa Fast-Transient DC-DC for LoRa PA |
Modern Cost-Effective RF Power Amplifier RF Components/Materials Measurement and Modeling |
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| Product Status | ACTIVE | DISCONTINUED | DISCONTINUED |
| Current Hardware Version | 30 Dec 2025 (Motherboard) | 18 Jan 2024 | 20 Sep 2022 |
| Initial Release Date | 30 Dec 2025 | 18 Jan 2024 | 12 Jun 2022 |
| Lora RF Max Output Power | RF daughterboard BQ35LORA900V1M: Up to 35 dBm (Max RF Output Power for Non-Boost Mode) | Up to 35 dBm (P1dB Point) | Up to 35 dBm (Maximum RF Output Power) |
| PA Operating Mode | 4 Configurable Power Levels | - | - |
| Frequency Reference for Lora | 32MHz TCXO (+-1.5 ppm) | 32MHz TCXO (+-1.5 ppm) | 32MHz XTAL (+-10 ppm) |
| Lora Ultra-Low Noise Figure LNA | Typical Gain: 10dB - 16 dB Dynamic Gain, Typical Noise Figure: 1.5 dB | Typical Gain: 18.5 dB, Typical Noise Figure: 1.8 dB | - |
| LNA Operating Mode | ON/OFF with Dynamic Gain & Impedance Matching | - | - |
| Fast-Transient DC-DC for LoRa PA | Transient Response Time < 18us, Maximum Transient Voltage Deviation < 275mV, Phase Margin > 66.73 Degrees, Ripple < 30mV, Test Condition: [email protected] Dynamic Test, Input Voltage 15VDC | Transient Response Time < 18us, Maximum Transient Voltage Deviation < 275mV, Phase Margin > 66.73 Degrees, Ripple < 30mV, Test Condition: [email protected] Dynamic Test, Input Voltage 15VDC | - |
| LoRa Transceiver | SX1262 | SX1262 | SX1262 |
| Lora Operation Frequency | US915MHz / EU868MHz | US915MHz / EU868MHz | US915MHz / EU868MHz |
| Modular Architecture | Yes (Motherboard + RF/MCU Daughterboards) | - | - |
| MCU (Default) | ESP32 S3 (Flash: 16MB, PSRAM: 8MB) | ESP32 S3 (Flash: 16MB, PSRAM: 8MB) | ESP32 (Flash: 4MB, PSRAM: -) |
| MCU Daughterboard Interface | Raspberry Pi compatible 40-pin GPIO | - | - |
| Linux-Native Support | Optional (Raspberry Pi Zero 2W compatible) | - | - |
| WIFI | YES for ESP32 S3 (BQESP32V1M) | YES | YES |
| Bluetooth | v5.0 for ESP32 S3 (BQESP32V1M) | v5.0 | v4.2 |
| Satellite Navigation | Optional | Optional (1x GROVE GPS Socket) | Optional |
| USB Connector | Type C (PD Protocol) | Type C (PD Protocol) | Type C (PD Protocol) |
| Screen (Default) | 1.3 Inch OLED Screen for ESP32 S3 (BQESP32V1M) | 1.3 Inch OLED Screen | 1.3 Inch OLED Screen |
| Battery | - | - | Optional 12V Battery Docker |
| Power Input Socket | 15VDC USB Type C PD protocol, DC5521 Socket (9VDC-19VDC, min 25W) | 15VDC USB Type C PD protocol, 1x5P Pitch=1.5mm Socket (9VDC-19VDC External Power Supply) | USB Type C, 1x2P Pitch=2.5mm Socket |
| LoRa Antenna | SMA Socket | SMA Socket | SMA Socket |
| Accessories | 1x GROVE GPS, 1x GROVE I2C | 1x GROVE GPS Socket, 1x GROVE I2C Socket, 1x SparkFun QWIIC I2C Socket and 1x IO Extension Socket | 1x IO Extension Socket |
| Typical Scenarios | Fixed-Location Base Stations, Vehicle-Mounted Base Stations, Linux Development Nodes | Fixed-Location Base Stations and Vehicle-Mounted Base Stations | Fixed-Location Base Stations and Vehicle-Mounted Base Stations |
The Nano Series devices are engineered to be a portable and durable solution for outdoor adventures such as hiking, piloting, skiing and more. They are designed to strike a balance between RF performance, size, ruggedness, and power efficiency, providing users with a reliable solution in various outdoor environments.
The Core Advantage of Nano Series
The Nano Series' Lora Antenna offers superior performance in various environments, including near the human body, due to its special design that minimize signal degradation and maintain efficient communication. In contrast, most other antennas currently available experience significant performance degradation when placed near the human body, as evidenced by a marked shift in resonant frequency and a substantial increase in VSWR, making them less suitable for wearable wireless devices. More Technical Information
| Editions | Nano G2 Ultra | Nano G1 Explorer | Nano G1 |
|---|---|---|---|
| Core Research Areas | Low Power Design | Human Body Near Antenna (HBN) Wideband High Radiation Efficiency Planar Antenna and RF Front-end Design |
High Radiation Efficiency Planar Antenna |
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| Product Status | ACTIVE | DISCONTINUED | DISCONTINUED |
| Current Hardware Version | 22 Sep 2023 | 06 Mar 2023 | 21 Jan 2022 |
| Initial Release Date | 19 Jun 2023 | 22 Jan 2023 | 21 Jan 2022 |
| Lora RF Max Output Power | Up to 22 dBm | Up to 22 dBm | Up to 20 dBm |
| LoRa Transceiver | SX1262 | SX1262 | SX1276 |
| Lora Operation Frequency | Wideband from 815 Mhz to 940 Mhz | Wideband from 815 Mhz to 940 Mhz | US915MHz |
| MCU | NRF52840 | ESP32 | ESP32 |
| WIFI | - | YES | YES |
| Bluetooth | v5.4 | v4.2 | v4.2 |
| Satellite Navigation | GPS, BDS | GPS, BDS | GPS, BDS, GLONASS |
| Real-Time Clock (RTC) | NXP PCF8563 | - | - |
| USB Connector | Type C | Type C | Type C |
| Screen | 1.3 Inch OLED Screen | 1.3 Inch OLED Screen | 1.3 Inch OLED Screen |
| Battery | Optional 3.7V 603450 JST 1.25mm Rechargeable Li-Polymer Battery | Optional 3.7V 603450 JST 1.25mm Rechargeable Li-Polymer Battery | – |
| Power Input Socket | USB Type C, JST 1.25mm Connector for Rechargeable Li-Polymer Battery | USB Type C, JST 1.25mm Connector for Rechargeable Li-Polymer Battery | USB Type C |
| LoRa Antenna | Build In Wideband PCB Antenna | Build In Wideband PCB Antenna | Build In PCB Antenna |
| Accessories | Build In 10 Pin FPC Connector (0.5mm Pitch, 1x I2C, 6x GPIO, VCC3V3 and GND) Optional I2C Extension Board (1x GROVE I2C Socket and 1x SparkFun QWIIC I2C Socket for Sensors and Keyboard) |
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| Typical Average Power Consumption | 14.24 mA @ 4.3V (Lora TX Power = 22 dBm, GPS OFF, Screen OFF, Two Nodes in Network) | 70.50 mA @ 4.3V (Lora TX Power = 22 dBm, GPS Low Power Mode, Screen OFF, Two Nodes in Network) | - |
| Typical Scenarios | Hiking, Pilot, Skiing, Work with the majority of regions' LoRa frequency bands around the world without the need for Antenna changes. The typical battery life is optimized to be about 5 days (For Hardware Version 22 Sep 2023 or Later). | Hiking, Pilot, Skiing, Work with the majority of regions' LoRa frequency bands around the world without the need for Antenna changes. The typical battery life is optimized to be about 16 Hours. | Hiking, Pilot, Skiing, Easier to pass through Airport Security Screening |