Olimex ESP32-ADF Board is Made for Smart Speakers, Internet Radios, VoIP Phones, and More

We’ve already covered several (smart) audio boards based on ESP32 WiSoC, including the Espressif’s own ESP32-LyraTD-MSC Audio Mic HDK,  as well as third party boards such as TTGO TAudio or Seeed Studio ESP32-A1S all compatible with the company’s ESP-ADF (Audio Development Framework) compatible with Baidu DuerOS, Google Assistant and Amazon Alexa. Olimex ESP32-ADF adds another ESP32 audio option, and AFAIK the first one that is open source hardware, with two speakers, and a dual-microphone that enable projects such as Alexa smart speaker, internet radio receiver, or SiP VoIP phone. Olimex ESP32-ADF specifications: Wireless Module – ESP32-WROVER-B with 8MB PSRAM, 4MB Flash, WiFi 4 and Bluetooth 4.2 LE Audio Stereo microphones Stereo 2x3W speakers with amplifier Audio output jack Display – UEXT connector for optional 2.8″ LCD display USB – 1x micro USB port for power supply and programming Misc – IR receiver, 4x touch buttons, 3x tactile buttons Build-in programmer Power Supply 5V/1A via DC jack On-board charger and LiPo …

ESP32 CoinCell is a Tiny, Coin Cell Powered ESP32 Pico D4 Board

ESP32 boards can easily be powered by batteries, either through an external USB battery shield, or direct connection to an ESP32 board fitted with battery charger circuitry. But Miek Rankin has done something a bit different, as he designed ESP32 Coincell board based on an ESP32 Pico D4 SiP (System-in-Package) powered by a rechargeable LIR2450 coin cell battery with 100mAh capacity. ESP32 CoinCell board specifications: SiP – Espressif Systems ESP32 Pico D4 Wifi/Bluetooth processor Connectivity 802.11 b/g/n WiFi up to 150 Mbps Bluetooth 4.1 LE On-board antenna Display – 0.69″ OLED display with 96×16 resolution USB – 1x micro USB port for charging and debugging (via CP2102N USB to TTL chip) Sensor – LIS3DHTR accelerometer Battery / Power Supply SE5218ALG-LF 500mA LDO power supply SL4054ST25P LiPo battery charger Socket for  for LIR2450 (3.7V/100Mah battery) Consumption – 0.45mA in sleep mode Dimensions – Small If you don’t connect the battery, the board can still be powered through the USB port. No battery …

Test AI Performance in Android with AI Benchmark App

Many new phones now come with Silicon-on-Chips (SoC) featuring a Neural Processing Unit (NPU) or similar IP block(s) aiming to accelerate A.I workloads such as facial recognition or object detection. Some silicon vendors will report performance in terms of TOPS (Trillion of Operation per Seconds) with for example 2.25 TOPS for the latest Mediatek Helio P90 processor, or 4.20 TOPS for Hisilicon Kirin 980 SoC. However, those numbers can be deceptive, and nothing beats actual tests. However, last time I checked Android benchmarks such as Antutu do not include tests specific to artificial intelligence just yet. Luckily there’s already an app for that called AI-Benchmark which you’ll find on Google Play. The benchmark includes 9 tasks: Object Recognition / Classification with MobileNet – V2 Object Recognition / Classification with Inception – V3 Face Recognition with Inception ResNet V1 Image Deblurring with SRCNN 9-5-5 neural network Image Super-Resolution with VGG – 19 neural network Image Super-Resolution with SRGAN neural network(CPU only) …

Wistrio LoRa Tracker RK5205 Complies with 96Boards IoT Edition Specification

  It’s not hard to find a LoRa GPS tracker board such as Rak Wireless RAK811 these days, but if for some reasons, you’d also like your board to comply with 96Boards IoT Edition form factor, Rak Wireless just launched Wistrio LoRa Tracker RK5205 for $49.50 plus shipping on Aliexpress and Amazon. Wistrio specifications: LoRa Module – RAK5205 module with SX1276 LoRa chipset, STM32L1 Arm Cortex-M3 microcontroller LoRa Connectivity LoRaWAN 1.0.2 protocol OTAA/ABP activation Programmable bitrate up to 300 Kbps Support for global bands: EU433, CN470, EU868, US915, AS923, AU915, KR920, and IN865 SMA & iPEX antenna options Location – Quectel L76-L GNNS chip supporting GPS, GLONASS, Galileo and QZSS system (pin-to-pin compatible with u-blox Max7) Sensors – LIS3DH 3-axis accelerometer, BME680 environmental sensor reporting gas, pressure, humidity and temperature data Expansion Header – I2C, GPIOs, UART and ADC Power Supply – Rechargeable battery via micro USB port, or 5V solar charging port Power Consumption / Low power modes – …

Pi Supply IoT LoRa Boards are made for Raspberry Pi & BBC Micro:bit Boards (Crowdfunding)

We’ve already covered plenty of LoRa boards or solutions designed for nodes or gateways such as TTGO T-Beam ESP32 + LoRa board, RAK Wireless RAK811 GPS Lora tracker board, MatchX Matchbox LoRa gateway, and many others,, but Pi Supply offers yet more options with LoRa node and gateway add-on boards designed to work with Raspberry Pi, Arduino, and BBC Micro:bit boards. Pi Supply LoRa Gateway HAT for Raspberry Pi The IoT LoRa Gateway HAT is based on RAK Wireless RAK833 mPCIe LoRa gateway concentrator module and connects to Raspberry Pi 3 B/B+ board via the 40-pin header. There are two hardware version using 868 MHz or 915 MHz frequencies, but as we’ve seen in previous reviews those are configurable for other frequencies such as AS923 or IN865. Pi Supply IoT LoRa Node pHAT for Raspberry Pi LoRa Node pHAT is designed for node specifically, and with a smaller form factor making it suitable not only for Raspberry Pi 3 boards, …

How to Make a Cheap Single Channel Gateway with an ESP32 LoRa Board

Actual LoRaWAN gateways based on Semtech SX1301 concentrator  can be pretty expensive,  and even if you take a LoRa gateway design based on Raspberry Pi for indoor placement or experimentation, price is still around $200. A much cheaper way (~$70)  is to use a single channel LoRa gateway, which as the name implies only support one channel, which limits the number of nodes, and forces you to set the nodes at the same frequency as your gateway. Those are not really suitable for commercial offerings, but if you manage your own gateway and nodes that should be usable. If you only plan to implement a network with a dozen nodes or so, you could even use much cheap ESP32 LoRa board like the ESP32 LoRa 1-Channel Gateway sold on Sparkfun for $29.95. Hardware specifications: Connectivity WiFi and Bluetooth 4.2 LE via ESP32-WROOM-32 module with integrated PCB antenna LoRa @ 868 / 915 MHz with Hope RFM95W LoRa modem controlled via …

Want Long WiFi Range? This $10 Directional Antenna Should Help

A typical WiFi router range is limited to around 50 meters, and even less in a building with walls and competing WiFi routers. But it’s also possible to use WiFi for longer range communication, and for example, CNLohr managed to get an ESP8266 module answering ping requests over 4km away with a powerful antenna that is supposed to allow for up to 20km range and costs around $80 (NB-2G18 model). But if you’re budget is more limited, Banggood has started to sell a “10dB directional antenna” for $9.84 shipped. It is said to be for TTGO ESP32 board, but I don’t see why if would not work with other WIFI boards with a u.FL or SMA connector. Specifications listed for the antenna: Frequency – 2400~2500MHz S.W.R.: <=1.5 Antenna Gain – 10dbi Radiation – Directional antenna Polarization – Linear Impedance – 50 Ohm Wire distance – 1m Connector: IPEX The main cable features an SMA connector, but if the photos are to be believed a …

Banana Pi BPI-ESP32 Board Follows Arduino UNO Form Factor, Works with Webduino and Arduino IDE

SinoVoIP has been pretty busy those days, as beside launching a BBC Micro:bit clone based on ESP32, and BPI-AI-Voice speech recognition board (also a clone or MicroSemi AcuEdge kit), the company has now started to take orders for Banana Pi BPI-ESP32 board for $10.99 plus shipping on Aliexpress. As the name implies, the based is based on ESP32 WiSoC, supports Arduino shields since it follows Arduino UNO form factor, and can be programming with web based Webduino visual programming IDE, or the Arduino IDE. BPI-ESP32 (aka BPI-UNO32) board specifications: Wireless module – ESP-WROOM-32 WiFi 802.11b/g/n, and Bluetooth 4.2 LE module; 4MB flash Expansion – Arduino headers with GPIOs, ADC, Ethernet, VP/VB, UART, I2C, Touch interface, etc… (See pinout table below) Misc – Buzzer, Tx/Rx LEDs, power LED, RGB LED, buttons Power Supply 5V/1A via micro USB 12V via 5.5mm DC jack Dimensions – 68 x 53 mm The company has yet again to make a complete mess of the product …