Wpisy

ESP-MESH is a network protocol based on the Wi-Fi protocol. ESP-MESH enables the connection of a large number of devices (hereinafter nodes) covering a large physical area (both inside and outside) over a single WLAN (wireless local area network). ESP-MESH self-organizes and self-heals, allowing you to build and maintain networks autonomously.

Traditional Wi-Fi Network Architecture. Source: espressif.com

Traditional Infrastructure of Wi-Fi network is a point-to-multipoint network in which a single central node called an Access Point (AP) is directly connected to all other nodes called stations. The AP is responsible for arbitrating and forwarding transmissions between stations. Some access points relay transmissions to and from external IP networks through routers.

Traditional Infrastructure Wi-Fi networks have the downside of having a limited coverage area as all stations need to be in range to connect directly to the access point. In addition, the maximum number of stations allowed in the network is limited by the bandwidth of the access point, making traditional Wi-Fi networks prone to overload.

ESP-MESH vs traditional Wi-Fi infrastucture

ESP-MESH differs from traditional Wi-Fi infrastructure networks in that the nodes do not have to connect to a central node. Instead, the node can connect with its neighbors. Nodes are responsible for relaying transmissions to each other. This allows for achieving interconnections without the need for nodes to be within the range of the central node, which significantly extends the coverage area of the ESP-MESH network. Likewise, ESP-MESH is less prone to congestion as the number of allowed nodes in the network is no longer limited by a single central node.

ESP-MESH Network Architecture. Source: espressif.com

Industrial use of ESP32-based solutions

One of industrial IoT devices, supporting Espressif’s ESP32 technology is eModGATE from TECHBASE. Economical, ESP32-based solution can serve as an end-point in any installation or works well as a gateway, gathering data from scattered sensor mesh across the installation. For more information check Industrial IoT Shop with all the configuration options for eModGATE.

eModGATE with ESP32
Realtek RTL8720DN Dual-Band WiFi & BT 5.0 vs ESP32

IoT market ofers wide range of small and efficient modules for Home & Industrial Internet of Things applications, equipped with 2.4GHz Wi-Fi, such as Espressif’s ESP32 or older ESP8266 modules. Additional Bluetooth 4.2/5.0 is often found on those. Dual-band Wi-Fi, on the other hand, is hard to find on low-budget IoT modules. Here comes Realtek RTL8720DN.

Realtek RTL2720DN module, as a part of AmebaD family, comes with ARM Cortex-M4/M0 wireless MCU with support of 802.11 b/g/n Dual-Band Wi-Fi 2.4GHz / 5GHz and extra Bluetooth 5.0 wireless connectivity.

Realtek RTL8720DN Dual-Band WiFi & Bluetooth 5.0 module

Realtek RTL8720DN specifications:

  • Wireless SoC – Realtek RTK8720DN MCU with KM4 Arm Cortex-M4 core @ 200 MHz and KM0 Arm Cortex-M0 core @ 20 MHz
  • Connectivity
    • WiFi
      • 802.11 a/b/g/n WiFi 4
      • Frequency Range – 2.412-2.484GHz & 5.180-5.825GHz
      • Data Rates
        • 802.11a: 6,9,12,18,24,36,48,54Mbps
        • 802.11b: 1,2,5.5,11Mbps
        • 802.11g: 6,9,12,18,24,36,48,54Mbps
        • 802.11n: MCS0–MCS7 @ HT20/HT40 2.4GHz and 5GHz bands
      • AP, Station, AP/Client supported
    • Bluetooth
      • Bluetooth 5.0 LE
      • Receiver Sensitivity: -92 dBm
      • Transmit Power: 7 dBm
    • Antenna – IPEX connector or PCB Antenna
  • I/O – 16x castellated holes with GPIO, 2x UART (AT commands + serial), ADC, I2C, SPI, 4x PWM, 3.3V, GND
  • Power Supply – 3.3±5% V
  • Dimensions – 24 x 16 x 3 mm
  • Temperature Range – Operating: -20°C to 85°C; storage: -40°C to 125°C
  • Relative Humidity – 10%~90% (non-condensing)
  • Certifications – FCC, CE, SRRC, RoHS

Source: https://www.cnx-software.com/2020/01/17/realtek-rtl8720dn-dual-band-wifi-bluetooth-5-0-iot-module/

Bluetooth 5.0 update for ESP32

The Espressif’s flagship ESP32 chip recently passed the SIG Bluetooth LE 5.0 certification. This confirms that the version of the protocol supported by the ESP32 microcontroller has been upgraded from Bluetooth LE 4.2 to Bluetooth LE 5.0, which is more stable and compatible.

The implementation and development of the Bluetooth LE (BLE) application requires not only a system that supports this function, but also an attached Bluetooth LE protocol stack consisting of a driver and a host.

Thanks to Bluetooth LE 5.0 certification, ESP32 SoC not only updates the system as a whole, but also adds new features that improve the latest software after passing more stringent tests than previous certification.

Industrial use of ESP32-based solutions

One of industrial IoT devices, supporting Espressif’s ESP32 technology is eModGATE from TECHBASE. Economical, ESP32-based solution can serve as an end-point in any installation or works well as a gateway, gathering data from scattered sensor mesh across the installation. For more information check Industrial IoT Shop with all the configuration options for eModGATE.

eModGATE with ESP32