The CubeCell series is designed primarily for LoRa/LoRaWAN node applications.
Built on the ASR605x platform (ASR6501, ASR6502), these chips integrate the PSoC 4000 series MCU (ARM Cortex-M0+ Core) with the SX1262 module. The CubeCell series offers seamless Arduino compatibility, stable LoRaWAN protocol operation, and straightforward connectivity with lithium batteries and solar panels.
The HTCC-AB02S is a developer-friendly board with an integrated AIR530Z GPS module, ideal for quickly testing and validating communication solutions.
Features
Arduino compatible
Based on ASR605x (ASR6501, ASR6502), those chips are already integrated the PSoC 4000 series MCU (ARM Cortex M0+ Core) and SX1262
LoRaWAN 1.0.2 support
Ultra low power design, 21 uA in deep sleep
Onboard SH1.25-2 battery interface, integrated lithium battery management system (charge and discharge management, overcharge protection, battery power detection, USB/battery power automatic switching)
Good impendence matching and long communication distance
Onboard solar energy management system, can directly connect with a 5.5~7 V solar panel
Micro USB interface with complete ESD protection, short circuit protection, RF shielding, and other protection measures
Integrated CP2102 USB to serial port chip, convenient for program downloading, debugging information printing
Onboard 0.96-inch 128x64 dot matrix OLED display, which can be used to display debugging information, battery power, and other information
Using Air530 GPS module with GPS/Beidou Dual-mode position system support
Specifications
Main Chip
ASR6502 (48 MHz ARM Cortex-M0+ MCU)
LoRa Chipset
SX1262
Frequency
863~870 MHz
Max. TX Power
22 ±1 dBm
Max. Receiving Sensitivity
−135 dBm
Hardware Resource
2x UART1x SPI2x I²C1x SWD3x 12-bit ADC input8-channel DMA engine16x GPIO
Memory
128 Kb FLASH16 Kb SRAM
Power consumption
Deep sleep 21 uA
Interfaces
1x Micro USB1x LoRa Antenna (IPEX)2x (15x 2.54 Pin header) + 3x (2x 2.54 Pin header)
Battery
3.7 V lithium battery (power supply and charging)
Solar Energy
VS pin can be connected to 5.5~7 V solar panel
USB to Serial Chip
CP2102
Display
0.96" OLED (128 x 64)
Operating temperature
−20~70°C
Dimensions
55.9 x 27.9 x 9.5 mm
Included
1x CubeCell HTCC-AB02S Development Board
1x Antenna
1x 2x SH1.25 battery connector
Downloads
Datasheet
Schematic
GPS module (Manual)
Quick start
GitHub
De LILYGO T-Display-S3 Long is een veelzijdig ontwikkelbord, aangedreven door de ESP32-S3R8 dual-core LX7-microprocessor. Het beschikt over een 3,4-inch capacitief TFT-LCD-aanraakscherm met een resolutie van 180 x 640 pixels, wat een responsieve interface biedt voor verschillende toepassingen.
Dit bord is ideaal voor ontwikkelaars die op zoek zijn naar een compacte maar krachtige oplossing voor projecten die aanraakinvoer en draadloze communicatie vereisen. De compatibiliteit met populaire programmeeromgevingen zorgt voor een soepele ontwikkelervaring.
Specificaties
MCU
ESP32-S3R8 Dual-core LX7-microprocessor
Draadloze connectiviteit
Wi-Fi 802.11, BLE 5 + BT Mesh
Programmeerplatform
Arduino IDE, VS-code
Flash
16 MB
PSRAM
8 MB
Detectie van batspanning
IO02
Ingebouwde functies
Opstart- en resetknop, batterijschakelaar
Weergave
3,4" capacitief TFT-touchscreen
Kleurdiepte
565, 666
Resolutie
180 x 640 (RGB)
Werkende voeding
3,3 V
Interface
QSPI
Inbegrepen
1x T-Display S3 Long
1x Voedingskabel
2x STEMMA QT/Qwiic-interfacekabel (P352)
1x Female pin (dubbele rij)
Downloads
GitHub
The Challenger RP2040 LoRa is an Arduino/CircuitPython compatible Adafruit Feather format microcontroller board based on the Raspberry Pi Pico (RP2040) chip.The transceiver features a LoRa long range modem that provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.LoRaThe integrated module LoRa module (RFM95W) can achieve a sensitivity of over -148 dBm utilizing a low cost crystal and bill of materials. The high sensitivity combined with the integrated +20 dBm power amplifier yields industry leading link budget making it optimal for any application requiring range or robustness. LoRa also provides significant advantages in both blocking and selectivity over conventional modulation techniques, solving the traditional design compromise between range, interference immunity and energy consumption.The RFM95W is connected to the RP2040 via SPI channel 1 and a few GPIO’s that is required for signaling. A U.FL connector is used to attach your LoRa antenna to the board.
168 dB maximum link budget
+20 dBm – 100 mW constant RF output vs. V supply
+14 dBm high efficiency PA
Programmable bit rate up to 300 kbps
High sensitivity: down to -148 dBm
Bullet-proof front end: IIP3 = -12.5 dBm
Excellent blocking immunity
Low RX current of 10.3 mA, 200 nA register retention
Fully integrated synthesizer with a resolution of 61 Hz
FSK, GFSK, MSK, GMSK, LoRaTM and OOK modulation
Built-in bit synchronizer for clock recovery
Preamble detection
127 dB Dynamic Range RSSI
Automatic RF Sense and CAD with ultra-fast AFC
Packet engine up to 256 bytes with CRC
Specifications
Microcontroller
RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0)
SPI
Two SPI channels configured (second SPI connected to RFM95W)
I²C
One I²C channel configured
UART
One UART channel configured
Analog inputs
4 analog input channels
Radio module
RFM95W from Hope RF
Flash memory
8 MB, 133 MHz
SRAM memory
264 KB (divided into 6 banks)
USB 2.0 controller
Up to 12 MBit/s full speed (integrated USB 1.1 PHY)
JST Battery connector
2.0 mm pitch
On board LiPo charger
450 mA standard charge current
Dimensions
51 x 23 x 3,2 mm
Weight
9 g
Downloads
Datasheet
Design files
De HT-M00 is een tweekanaals gateway die speciaal is ontworpen voor LoRa-toepassingen voor slimme gezinnen die werken met minder dan 30 LoRa-nodes. De gateway is gebouwd rond twee SX1276-chips die worden aangestuurd door ESP32. Om monitoring van de 125 kHz SF7~SF12-spreidingsfactor mogelijk te maken, is een softwaremixer ontwikkeld, die gewoonlijk een basisbandsimulatieprogramma wordt genoemd.
De softwaremixer is een cruciaal onderdeel waardoor de HT-M00-gateway met hoge efficiëntie kan werken. Het is ontworpen om basisbandsignalen te simuleren, die vervolgens worden gemengd met de radiofrequentiesignalen om de gewenste uitvoer te produceren. De softwaremixer is met grote zorg en precisie ontwikkeld en heeft strenge tests ondergaan om ervoor te zorgen dat hij nauwkeurige en betrouwbare resultaten kan leveren.
Kenmerken
ESP32 + SX1276
Emuleert LoRa-demodulatoren
Automatische adaptieve spreadspectrumfactor, SF7 tot SF12 voor elk kanaal is optioneel
Maximale output: 18 ±1dBm
Ondersteuning voor LoRaWAN klasse A, klasse C-protocol
Specificaties
MCU
ESP32-D0WDQ6
LoRa-chipset
SX1276
LoRa-band
863~870 MHz
Voedingsspanning
5 V
Ontvangstgevoeligheid
-110 dBm bij 300 bps
Interface
USB-C
Max. TX-vermogen
17dB ±1dB
Bedrijfstemperatuur
−20~70°C
Afmetingen
30 x 76 x 14 mm
Inbegrepen
1x HT-M00 2-kanaals LoRa Gateway
1x Muurbeugel
1x USB-C-kabel
Downloads
Manual
Software
Documentation
Dit ontwikkelbord (ook bekend als "Cheap Yellow Display") wordt aangedreven door de ESP-WROOM-32, een dual-core MCU met geïntegreerde Wi-Fi- en Bluetooth-mogelijkheden. Het werkt op een hoofdfrequentie tot 240 MHz, met 520 KB SRAM, 448 KBROM en 4 MB Flash-geheugen. Het bord is voorzien van een 2,8-inch scherm met een resolutie van 240 x 320 en resistieve aanraking.
Bovendien bevat het bord een achtergrondverlichtingsbesturingscircuit, aanraakbesturingscircuit, luidsprekeraandrijfcircuit, lichtgevoelig circuit en RGB-LED-besturingscircuit. Het biedt ook een TF-kaartsleuf, seriële interface, DHT11 temperatuur- en vochtigheidssensorinterface en extra IO-poorten.
De module ondersteunt ontwikkeling in Arduino IDE, ESP-IDE, MicroPython en Mixly.
Toepassingen
Beeldoverdracht voor Smart Home-apparaat
Draadloze bewaking
Slimme landbouw
Draadloze QR-herkenning
Signaal van draadloos positioneringssysteem
En andere IoT-toepassingen
Specificaties
Microcontroller
ESP-WROOM-32 (Dual-core MCU met geïntegreerde Wi-Fi en Bluetooth)
Frequentie
Tot 240 MHz (rekenkracht is maximaal 600 DMIPS)
SRAM
520 KB
ROM
448 KB
Flash
4 MB
Bedrijfsspanning
5 V
Stroomverbruik
ca. 115 mA
Display
2,8" TFT-kleurenscherm (240 x 320)
Touch
Resistief Touch
Driver chip
ILI9341
Afmetingen
50 x 86 mm
Gewicht
50 g
Inbegrepen
1x ESP32 Dev Board met 2,8" display en acryl-behuizing
1x Touchpen
1x Aansluitkabel
1x USB-kabel
Downloads
GitHub
PÚCA DSP is an open-source, Arduino-compatible ESP32 development board for audio and digital signal processing (DSP) applications with expansive audio-processing features. It provides audio inputs, audio outputs, a low-noise microphone array, an integrated test-speaker option, additional memory, battery-charge management, and ESD protection all on a small, breadboard-friendly PCB.
Synthesizers, Installations, Voice UI, and More
PÚCA DSP can be used for a wide range of DSP applications, including but not limited to those in the fields of music, art, creative technology, and adaptive technology. Music-related examples include digital-music synthesis, mobile recording, Bluetooth speakers, wireless line-level directional microphones, and the design of smart musical instruments. Art-related examples include acoustic sensor networks, sound-art installations, and Internet-radio applications. Examples related to creative and adaptive technology include voice user interface (VUI) design and Web audio for the Internet of Sounds.
Compact, Integrated Design
PÚCA DSP was designed for portability. When used with an external 3.7 V rechargeable battery, it can be deployed almost anywhere or integrated into just about any device, instrument, or installation. Its design emerged from months of experimentation with various ESP32 development boards, DAC breakout boards, ADC breakout boards, Microphone breakout boards, and audio-connector breakout boards, and – despite its diminutive size – it manages to provide all of that functionality in a single board. And it dos so without compromising signal quality.
Specifications
Processor & Memory
Espressif ESP32 Pico D4 Processor
32-bit dual core 80 MHz / 160 MHz / 240 MHz
4 MB SPI Flash with 8 MB additional PSRAM (Original Edition)
Wireless 2.4 GHz Wi-Fi 802.11b/g/n
Bluetooth BLE 4.2
3D Antenna
Audio
Wolfson WM8978 Stereo Audio Codec
Audio Line In on 3.5 mm stereo onnector
Audio Headphone / Line Out on 3.5 mm stereo connector
Stereo Aux Line In, Audio Mono Out routed to GPIO Header
2x Knowles SPM0687LR5H-1 MEMS Microphones
ESD protection on all audio inputs and outputs
Support for 8, 11.025, 12, 16, 22.05, 24, 32, 44.1 and 48 kHz sample rates
1 W Speaker Driver, routed to GPIO Header
DAC SNR 98 dB, THD -84 dB (‘A’ weighted @ 48 kHz)
ADC SNR 95 dB, THD -84 dB (‘A’ weighted @ 48 kHz)
Line input impedance: 1 MOhm
Line output impedance: 33 Ohm
Form Factor and Connectivity
Breadboard friendly
70 x 24 mm
11x GPIO pins broken out to 2.54 mm pitch header, with access to both ESP32 ADC channels, JTAG and capacitive touch pins
USB 2.0 over USB Type C connector
Power
3.7/4.2 V Lithium Polymer Rechargeable Battery, USB or external 5 V DC power source
ESP32 and Audio Codec can be placed into low power modes under software control
Battery voltage level detection
ESD protection on USB data bus
Downloads
GitHub
Datasheet
Links
Crowd Supply Campaign (includes FAQs)
Hardware Overview
Programming the Board
The Audio Codec
ESP32-S2-Saola-1R is a small-sized ESP32-S2 based development board. Most of the I/O pins are broken out to the pin headers on both sides for easy interfacing. Developers can either connect peripherals with jumper wires or mount ESP32-S2-Saola-1R on a breadboard.ESP32-S2-Saola-1R is equipped with the ESP32-S2-WROVER module, a powerful, generic Wi-Fi MCU module that has a rich set of peripherals. It is an ideal choice for a wide variety of application scenarios relating to Internet of Things (IoT), wearable electronics and smart home. The board a PCB antenna and features a 4 MB external SPI flash and an additional 2 MB SPI Pseudo static RAM (PSRAM).FeaturesMCU
ESP32-S2 embedded, Xtensa® single-core 32-bit LX7 microprocessor, up to 240 MHz
128 KB ROM
320 KB SRAM
16 KB SRAM in RTC
WiFi
802.11 b/g/n
Bit rate: 802.11n up to 150 Mbps
A-MPDU and A-MSDU aggregation
0.4 µs guard interval support
Center frequency range of operating channel: 2412 ~ 2484 MHz
Hardware
Interfaces: GPIO, SPI, LCD, UART, I²C, I²S, Camera interface, IR, pulse counter, LED PWM, TWAI (compatible with ISO 11898-1), USB OTG 1.1, ADC, DAC, touch sensor, temperature sensor
40 MHz crystal oscillator
4 MB SPI flash
Operating voltage/Power supply: 3.0 ~ 3.6 V
Operating temperature range: –40 ~ 85 °C
Dimensions: 18 × 31 × 3.3 mm
Applications
Generic Low-power IoT Sensor Hub
Generic Low-power IoT Data Loggers
Cameras for Video Streaming
Over-the-top (OTT) Devices
USB Devices
Speech Recognition
Image Recognition
Mesh Network
Home Automation
Smart Home Control Panel
Smart Building
Industrial Automation
Smart Agriculture
Audio Applications
Health Care Applications
Wi-Fi-enabled Toys
Wearable Electronics
Retail & Catering Applications
Smart POS Machines
Meer dan 40 volledig geteste ESP32-projecten met Arduino IDE en de LVGL grafische bibliotheek
Deze bundel bevat de ESP32 Cheap Yellow Display (CYD) – een compact ontwikkelbord dat een standaard ESP32-microcontroller combineert met een TFT-kleurendisplay van 320 x 240 pixels. Het bord beschikt ook over meerdere aansluitingen voor GPIO, seriële communicatie (TX/RX), voeding en aarde. Het ingebouwde display is een groot voordeel, omdat gebruikers hiermee complexe, grafische projecten kunnen maken zonder dat er externe LCD's of displays nodig zijn.
Het bijbehorende boek introduceert de hardware en de ingebouwde aansluitingen van het CYD-bord in detail. Het biedt een reeks projecten van beginners- tot gevorderdenniveau, ontwikkeld met de populaire Arduino IDE 2.0. Zowel basis grafische functies als de krachtige LVGL grafische bibliotheek worden behandeld, met praktische projecten die elke aanpak illustreren.
Alle meegeleverde projecten zijn volledig getest en klaar voor gebruik. Het boek bevat blokdiagrammen, circuitschema's, complete codelijsten en stapsgewijze uitleg. Met de LVGL-bibliotheek kunnen lezers moderne, kleurrijke grafische interfaces maken met behulp van widgets zoals knoppen, labels, schuifregelaars, kalenders, toetsenborden, grafieken, tabellen, menu's, animaties en meer.
ESP32 Cheap Yellow Display Board
Dit ontwikkelbord (ook bekend als "Cheap Yellow Display") wordt aangedreven door de ESP-WROOM-32, een dual-core MCU met geïntegreerde Wi-Fi- en Bluetooth-mogelijkheden. Het werkt op een hoofdfrequentie tot 240 MHz, met 520 KB SRAM, 448 KBROM en 4 MB Flash-geheugen. Het bord is voorzien van een 2,8-inch scherm met een resolutie van 240 x 320 en resistieve aanraking.
Bovendien bevat het bord een achtergrondverlichtingsbesturingscircuit, aanraakbesturingscircuit, luidsprekeraandrijfcircuit, lichtgevoelig circuit en RGB-LED-besturingscircuit. Het biedt ook een TF-kaartsleuf, seriële interface, DHT11 temperatuur- en vochtigheidssensorinterface en extra IO-poorten.
De module ondersteunt ontwikkeling in Arduino IDE, ESP-IDE, MicroPython en Mixly.
Toepassingen
Beeldoverdracht voor Smart Home-apparaat
Draadloze bewaking
Slimme landbouw
Draadloze QR-herkenning
Signaal van draadloos positioneringssysteem
En andere IoT-toepassingen
Specificaties
Microcontroller
ESP-WROOM-32 (Dual-core MCU met geïntegreerde Wi-Fi en Bluetooth)
Frequentie
Tot 240 MHz (rekenkracht is maximaal 600 DMIPS)
SRAM
520 KB
ROM
448 KB
Flash
4 MB
Bedrijfsspanning
5 V
Stroomverbruik
ca. 115 mA
Display
2,8" TFT-kleurenscherm (240 x 320)
Touch
Resistief Touch
Driver chip
ILI9341
Afmetingen
50 x 86 mm
Gewicht
50 g
Downloads
GitHub
Inhoud van de bundel
The ESP32 Cheap Yellow Display Book (normale prijs: € 35)
ESP32 Cheap Yellow Display Board (normale prijs: € 25)
1x ESP32 Dev Board met 2,8" display en acryl-behuizing
1x Touchpen
1x Aansluitkabel
1x USB-kabel
Projects Using Arduino IDE and the LVGL Graphics Library
The ESP32 is probably one of the most popular microcontrollers used by many people, including students, hobbyists, and professional engineers. Its low cost, coupled with rich features makes it a popular device to use in many projects. Recently, a board called the ESP32 Cheap Yellow Display (CYD for short) is available from its manufacturers. The board includes a standard ESP32 microcontroller together with a 320x240 pixel TFT display. Additionally, the board provides several connectors for interfaces such as GPIO, serial port (TX/RX), power and Ground. The inclusion of a TFT display is a real advantage as it enables users to design complex graphics-based projects without resorting to an external LCD or graphics displays.
The book describes the basic hardware of the ESP32 CYD board and provides details of its on-board connectors. Many basic, simple, and intermediate-level projects are given in the book based on the ESP32 CYD, using the highly popular Arduino IDE 2.0 integrated development environment. The use of both the basic graphics functions and the use of the popular LVGL graphics library are discussed in the book and projects are given that use both types of approaches.
All the projects given in the book have been tested and are working. The block diagram, circuit diagram, and the complete program listings and program descriptions of all the projects are given with explanations. Readers can use the LVGL graphics library to design highly popular eye-catching full-color graphics projects using widgets such as buttons, labels, calendars, keypads, keyboards, message boxes, spinboxes, sliders, charts, tables, menus, bars, switches, drop-down lists, animations, and many more widgets.
Projects Using Arduino IDE and the LVGL Graphics Library
The ESP32 is probably one of the most popular microcontrollers used by many people, including students, hobbyists, and professional engineers. Its low cost, coupled with rich features makes it a popular device to use in many projects. Recently, a board called the ESP32 Cheap Yellow Display (CYD for short) is available from its manufacturers. The board includes a standard ESP32 microcontroller together with a 320x240 pixel TFT display. Additionally, the board provides several connectors for interfaces such as GPIO, serial port (TX/RX), power and Ground. The inclusion of a TFT display is a real advantage as it enables users to design complex graphics-based projects without resorting to an external LCD or graphics displays.
The book describes the basic hardware of the ESP32 CYD board and provides details of its on-board connectors. Many basic, simple, and intermediate-level projects are given in the book based on the ESP32 CYD, using the highly popular Arduino IDE 2.0 integrated development environment. The use of both the basic graphics functions and the use of the popular LVGL graphics library are discussed in the book and projects are given that use both types of approaches.
All the projects given in the book have been tested and are working. The block diagram, circuit diagram, and the complete program listings and program descriptions of all the projects are given with explanations. Readers can use the LVGL graphics library to design highly popular eye-catching full-color graphics projects using widgets such as buttons, labels, calendars, keypads, keyboards, message boxes, spinboxes, sliders, charts, tables, menus, bars, switches, drop-down lists, animations, and many more widgets.
ATOM U is a compact low-power consumption speech recognition IoT development kit. It adopts an ESP32 chipset, equipped with 2 low-power Xtensa 32-bit LX6 microprocessors with the main frequency of up to 240 MHz. Built-in USB-A interface, IR emitter, programmable RGB LED. Plug-and-play, easy to upload and download programs. Integrated Wi-Fi and digital microphone SPM1423 (I2S) for the clear sound record. suitable for HMI, Speech-to-Text (STT). Low-code development ATOM U supports UIFlow graphical programming platform, scripting-free, cloud push; Fully compatible with Arduino, MicroPython, ESP32-IDF, and other mainstream development platforms, to quickly build various applications. High integration ATOM U contains a USB-A port for programming/power supply, IR emitter, programmable RGB LED x1, button x1; Finely tuned RF circuit, providing stable and reliable wireless communication. Strong expandability ATOM U is easy access to M5Stack's hardware and software system. Features ESP32-PICO-D4 (2.4GHz Wi-Fi dual mode) Integrated programmable RGB LED and button Compact design Built-in IR emitter Expandable pinout and GROVE port Development platform: UIFlow MicroPython Arduino Specifications ESP32-PICO-D4 240MHz dual core, 600 DMIPS, 520KB SRAM, 2.4G Wi-Fi Microphone SPM1423 Microphone sensitivity 94 dB SPL@1 KHz Typical value: -22 dBFS Microphone signal-to-noise ratio 94 dB SPL@1 KHz, A-weighted Typical value: 61.4 dB Standby working current 40.4 mA Support input sound frequency 100 Hz ~ 10 KHz Support PDM clock frequency 1.0 ~ 3.25 MHz Weight 8.4 g Product size 52 x 20 x 10 mm Downloads Documentation
The ESP32-WROOM-32, measuring 25.2 x 18 mm only, contains the ESP32 SoC, flash memory, precision discrete components, and PCB antenna to provide outstanding RF performance in space-constrained applications.
ESP32-WROOM-32 is a powerful, generic Wi-Fi + BT + BLE MCU module that targets a wide variety of applications, ranging from low-power sensor networks to the most demanding tasks, such as voice encoding, music streaming and MP3 decoding.
At the core of this module is the ESP32-D0WDQ6 chip. The chip embedded is designed to be scalable and adaptive. There are two CPU cores that can be individually controlled, and the clock frequency is adjustable from 80 MHz to 240 MHz. The user may also power off the CPU and make use of the low-power co-processor to monitor the peripherals for changes or crossing of thresholds constantly. ESP32 integrates a rich set of peripherals, ranging from capacitive touch sensors, Hall sensors, SD card interface, Ethernet, high-speed SPI, UART, I²S and I²C.
The integration of Bluetooth, Bluetooth LE and Wi-Fi ensures that a wide range of applications can be targeted and that the module is future proof. Using Wi-Fi allows a vast physical range and direct connection to the internet through a Wi-Fi router while using Bluetooth allows the user to conveniently connect to the phone or broadcast low energy beacons for its detection.
The sleep current of the ESP32 chip is less than 5 µA, making it suitable for battery powered and wearable electronics applications. ESP32 supports a data rate of up to 150 Mbps, and 20.5 dBm output power at the antenna to ensure the broadest physical range. As such the chip does offer industry-leading specifications and the best performance for electronic integration, range, power consumption, and connectivity.
Downloads
Datasheet
