WiFi is not really designed for kilometer range transmission, but CNLohr previously demonstrated 1km range with ESP8266, and some directional antennas are sold to expand the WiFi range.
Bison Science’s ESP32-M1 Reach Out WiFi development board has been specifically designed for long-range connectivity with up to 30 dBm (1W) transmit power and support for various types of antennas for a 1.2-kilometer range, even tested up to 1.5km in a clear day.
ESP32-M1 Reach Out features and specifications:
- WiSoC – Espressif Systems ESP32-D0WDQ6 dual-core processor @ 240 MHz
- Storage – 32 Mbit flash
- Connectivity
- 2.4 GHz Wi-Fi 4 802.11 b/g/n
- Bluetooth 4.2/5.x Classic and Bluetooth Low Energy (BLE)
- QPF4219 PA (Power Amplifier) and LNA (Low Noise Amplifier) Wi-Fi RF front end (RFFE) from Qorvo with 33 dB PA gain and 15 dB LNA gain
- Wi-Fi transmit output power adjustable from 21 to 30 dBm (1 W) conducted
- Wi-Fi front end bypass mode can be activated by disabling the Wi-Fi RFFE to lower Tx power, power consumption, run existing code. Note: In this mode, Wi-Fi and Bluetooth share the same antenna port
- WiFi/Bluetooth RF switch
- Antenna
- 2x RP-SMA antenna connectors for Wi-Fi or Bluetooth
- Support for ESP32-A1 antenna low-profile, planar antenna with an RPSMA connector that fits on top of ESP32-M1 board (See white PCB in photos).
- I/O Expansion
- UART, I²C, I²S, and SPI
- 12-Bit ADC
- PWM
- 16x accessible GPIOs
- 2x accessible input-only IOs
- Misc – Reset button, 1x user-definable button
- Debugging – CP2102 USB Serial Bridge (USB-to-UART converter)
- Power Supply
- 5V input via USB port
- Output – 3.3V, 4.9V and USB voltage
- Power Consumption –
- ~770 mA for Tx at 27 dBm (0.5 W)
- < 330 mA0 for Wi-Fi Tx (with RFFE disabled), Bluetooth, BLE, and general operation
- Dimensions – 60 x 40 cm; Heat Sink: Footprints for two 22 x 22 mm heat sinks
- Weight – 18 grams
The long-range WiFi board can be used legally in most jurisdictions, but you may want to check your local laws and regulations to adjust the maximum power output accordingly:
Regulation of ISM-band communication equipment in the United States (under FCC 15.247) allows up to 36 dBm (4 W) of EIRP (Effective Isotropic Radiated Power) for point-to-multipoint links and even higher EIRP for point-to-point links. The 30 dBm (1W) conducted power of ESP32-M1 Reach Out is also permitted in certain European, Asian, South American, and North American countries—as well as in New Zealand. And if you are subject to the limitations put in place by other jurisdictions, you can adjust the board’s transmit power through the ESP32 module or reduce it even further using an on-board RF attenuator.
Yet the company notes that “Unfortunatley, we are unable to ship ESP32-M1 Reach Out to European backers, as it is not CE marked.” So the only way to order would be to use a US forwarder, and even so, you’d be at risk of getting the board confiscated by customs, and maybe fined.
The 1.2 kilometer line-of-sight range is about triple the typical 400m range achievable with standard ESP32 boards without RFFE, and you can test the difference easily in your own environment since the RFFE can be disabled on ESP32-M1 Reach Out board to make it act as a “normal” ESP32 board.
The board’s schematics and PCB layout have been released in PDF format on Github. Bison Science designed the board to make it as compatible as possible with Espressif Dev Kit C so the same code can be run on both boards.
ESP32-M1 Reach Out board has just launched on Crowd Supply with a $6,000 funding target. A $59 pledge is asked for the board, $29 for ESP32-AI antenna board, and high-gain SMA antennas are also offered. Shipping adds $8 to the US and $18 to the rest of the world, but as previously mentioned it’s not possible to ship to Europe due to the lack of CE certification. Deliveries are expected to start at the end of July 2021.
Jean-Luc started CNX Software in 2010 as a part-time endeavor, before quitting his job as a software engineering manager, and starting to write daily news, and reviews full time later in 2011.
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Yeah a friend ordered a high power USB wifi card with a small parabolic antenna attached to it, he got a letter from the customs to appear in a meeting at the belgian FCC, the BIPT.
Totally ridiculous, since you can use a wifi card in receive mode only, not using the transmit at all, and you can also reduce the TX power, as mentioned in this article.
What happened next? Did he go to the meeting and managed to get the antenna through customs?
It seems like the BIPT was a bit picky. But I can’t blame the Belgian customs, they see passing so much craps coming from China imports that doesn’t respect any regulation or even so many dangerous stuff I would dare to plug on a power source.
For instance I bought on local Belgian 2nd hand market a high power USB wifi antenna, coming from undelivered or seized Chinese parcels (yep, B-Post/customs resell these parcels). Believe me, this device get me such painful headache quite instantly when plugged that I was astonished such a device can be imported in Europe.
That said, one can maintain long distance wifi connections with devices that respect regulations. For instance I can get a 1.7km stable connection to the Midi tower in BXL (direct line-of-sight) with a Ubiquiti 5Ghz CPE.
Power limits are much more relaxed in the 5 GHz band (or at least parts of it). The ESP32 only supports 2.4 GHz, which is limited to 20 dBm / 100 mW EIRP (including antenna gain) in many countries, including most of the EU. Wonder when Espressif will start producing chips with 5 GHz support….
Using these in urban areas is very a-social as you will be overshouting your neighbours.
Also note that if e.g. in a rural area you want to make such a connection is that you need such a device at both sides. If you were to connect with a regular phone, the phone will be able to hear you but its transmission power will be much less, so this board will quite likely not hear your phone.
A much better solution is to use good directional antenna’s.
(just for fun: google for pringles can antenna)
Crap!
Better to use a good directional antenna, this will easily outcome the 10 dB gain in silicon.
A good antenna will also reduce noise and neighbours interferences without increasing power consumption.
Thats true.
But i didnt understand why the considered two antennas?! Since 802.11 is not realy full-duplex; what is the point in using two antennas in ESP32?!
I’ve a question:
Where did you found the block diagram?
Ineed more information about that just for a homework.
thanks a lot