esp32

+## chips

+

+

+- [[ESP32-S3-dat]] - [[ESP32-S2-dat]]

+

+- [[ESP32-C3-dat]] - [[ESP32-C2-dat]]

+

+## Solar Type-C Solutions

+

+

+

+

+## solutions

+

+- [[NRF52840+SX1262-dat]]

+

+

+# ST-dat

+

+MM6108IQ == Single chip solution, including Radio, PHY, and MAC sections supporting data rates up to 32.5 Mbps

+

+https://www.st.com/en/partner-products-and-services/mm6108iq.html

+

+The MM6108 SoC is a single chip solution, including Radio, PHY, and MAC sections designed in accordance with the IEEE **802.11ah** standard, supporting data rates up to 32.5 Mbps.

+

+Morse Micro Wi-Fi HaLow == https://www.morsemicro.com/products/

+

+- [[Morse-Micro-dat]]

+

+- [[WiFi-HaLow-dat]] - [[IOT-dat]]

+

+

+- [[L298-dat]]

+

+- [[ST-sensor-dat]]

+

+- [[ST25DV-dat]]

+

+- [[STM32-dat]] - [[STM8-dat]]

+

+- [[STM32-clone-dat]]

+

+

+

+

+

+## ref

+

+- [[chip-dat]]

+

+## solutions

+

+- [[NRF52840+SX1262-dat]]

+- [[ST-dat]] - [[STM32-dat]] - [[STM32-HDK-dat]] - [[STM32-SDK-dat]]

+- [[STM32-dat]]

+

+- [[ESP-IDF-dat]]

+

+- [[arduino-ide-dat]]

+

+- [[python-dat]]

+

+## VS-code

+

+- [[VSCODE-dat]] - [[platformIO-dat]]

+

+

+

+## more

+

+## ref

+- [[tech-dat]]

+

+# STM32-Cube-IDE-dat

+

+https://www.st.com.cn/zh/development-tools/stm32cubeide.html

+

+STM32CubeIDE-Win STM32CubeIDE Windows Installer 1.19.0 ST

+

+# STM32-CubeMX-dat.md

+

+- [STM32CubeMX == STM32Cube initialization code generator](https://www.st.com/en/development-tools/stm32cubemx.html)

+

+

+STM32CubeMX-Win STM32Cube init code generator for Windows 6.15.0

+- [[STM32-Cube-programmer-dat]] - [[STM32-CubeMX-dat]] - [[STM32-CubeIDE-dat]]

+

+# IEEE-dat.md

+

+

+

+## 802.11

+

+[[RTL8188-dat]] == 802.11n

+

+

+### 802.11 Wi-Fi Standards Comparison

+

+| Standard | Wi-Fi Generation | Frequency Band(s) | Max Data Rate (Theoretical) | Max Channel Width | Key Technologies | Year Approved |

+| :------------ | :--------------- | :---------------- | :-------------------------- | :---------------- | :------------------------------------------ | :------------ |

+| 802.11 | Legacy | 2.4 GHz | 2 Mbps | 22 MHz | DSSS, FHSS | 1997 |

+| 802.11b | Legacy | 2.4 GHz | 11 Mbps | 22 MHz | DSSS | 1999 |

+| 802.11a | Legacy | 5 GHz | 54 Mbps | 20 MHz | OFDM | 1999 |

+| 802.11g | Legacy | 2.4 GHz | 54 Mbps | 20 MHz | OFDM | 2003 |

+| **802.11n** | **Wi-Fi 4** | 2.4 / 5 GHz | 600 Mbps | 40 MHz | OFDM, MIMO | 2009 |

+| **802.11ac** | **Wi-Fi 5** | 5 GHz | 6.9 Gbps | 160 MHz | OFDM, MIMO, MU-MIMO (Downlink) | 2014 |

+| **802.11ax** | **Wi-Fi 6** | 2.4 / 5 GHz | 9.6 Gbps | 160 MHz | OFDMA, MU-MIMO (Up/Down), TWT, BSS Coloring | 2019 |

+| **802.11ax** | **Wi-Fi 6E** | 2.4 / 5 / 6 GHz | 9.6 Gbps | 160 MHz | Adds 6 GHz band operation to Wi-Fi 6 | 2020 |

+| **802.11be** | **Wi-Fi 7** | 2.4 / 5 / 6 GHz | ~46 Gbps | 320 MHz | OFDMA enhancements, MLO, Advanced MU-MIMO | 2024 |

+| **802.11ah** | **Wi-Fi HaLow** | Sub-1 GHz | 347 Mbps | 16 MHz | OFDM, Long Range, Low Power, IoT Focused | 2016

+

+

+**Notes:**

+

+* **Max Data Rate:** These are theoretical maximums under ideal conditions with the highest configurations (e.g., maximum spatial streams, highest modulation). Real-world speeds are typically lower.

+* **Key Technologies:**

+ * **DSSS:** Direct-Sequence Spread Spectrum

+ * **FHSS:** Frequency-Hopping Spread Spectrum

+ * **OFDM:** Orthogonal Frequency-Division Multiplexing

+ * **MIMO:** Multiple-Input Multiple-Output (using multiple antennas)

+ * **MU-MIMO:** Multi-User MIMO (allows simultaneous communication with multiple devices)

+ * **OFDMA:** Orthogonal Frequency-Division Multiple Access (divides channel for multiple users)

+ * **TWT:** Target Wake Time (improves battery life for IoT devices)

+ * **BSS Coloring:** Reduces interference between neighboring networks

+ * **MLO:** Multi-Link Operation (aggregates multiple bands/channels)

+* **Wi-Fi 6E:** Extends Wi-Fi 6 capabilities into the less congested 6 GHz band.

+* **Wi-Fi 7:** The newest standard, focusing on extremely high throughput, lower latency, and improved reliability, particularly for demanding applications like AR/VR and cloud gaming.

+*

+

+

+

+## general

+

+IEEE standards are technical guidelines and specifications developed by the Institute of Electrical and Electronics Engineers (IEEE). These standards ensure compatibility, safety, and interoperability for a wide range of technologies, including networking, electronics, telecommunications, and power systems.

+

+Some well-known IEEE standards include:

+- **IEEE 802.3** (Ethernet)

+- **IEEE 802.11** (WiFi)

+- **IEEE 754** (Floating-point arithmetic)

+

+IEEE standards are widely adopted globally and play a crucial role in advancing technology and ensuring devices from different manufacturers work together

+

+# IoT-dat

+

+

+# WiFi-HaLow-dat

+

+## WiFi HaLow (IEEE 802.11ah)

+

+WiFi HaLow is a wireless networking standard based on IEEE 802.11ah, designed for Internet of Things (IoT) applications. It operates in the sub-1 GHz frequency bands, providing several key advantages:

+

+- **Long Range:** Coverage up to 1 kilometer, much farther than traditional WiFi.

+- **Low Power Consumption:** Optimized for battery-powered IoT devices.

+- **Better Penetration:** Signals can pass through walls and obstacles more effectively.

+- **High Device Density:** Supports thousands of devices per access point.

+

+WiFi HaLow is ideal for smart homes, industrial automation, agriculture, and other IoT scenarios where long range and low

+

+## Common and Popular WiFi HaLow Chip Solutions

+

+Several manufacturers offer WiFi HaLow (IEEE 802.11ah) chipsets and modules for IoT applications. Some of the most common and popular solutions include:

+

+- **Morse Micro MM6108 / MM6104**

+ Highly integrated WiFi HaLow SoCs and modules, known for long range and low power.

+

+- **Newracom NRC7292**

+ Widely used 802.11ah chipset, available as modules and reference designs.

+

+- **Silex SX-NEWAH**

+ Modules based on Newracom chipsets, suitable for industrial and commercial IoT.

+

+- **Methods2Business M2B-110AH**

+ 802.11ah modules and development kits for rapid prototyping.

+

+- **Alps Alpine**

+ Offers WiFi HaLow modules for embedded and automotive applications.

+

+These solutions are used in smart home devices, industrial automation, agriculture, and other IoT deployments requiring long-range, low-power wireless connectivity.

+

+## ref

+

+- [[IOT-dat]] - [[ST-dat]] - [[IEEE-dat]]

+# Wifi

+

+## tech

+

+- [[IEEE-dat]] - [[WIFI-Halow-dat]]

+

+

+## cheatsheet

+- [[ESP-SDK-dat]]

+- [[SDK-dat]]

+

+

+# NRF52840+SX1262-dat

+

+- [[NRF52840-dat]] - [[SX1262-dat]]

+

+## T114

+

+107-09-2025.jpg)

+

+### NRF52840

+

+

+

+

+- button == P1.10

+- REST == P0.18/RESET

+

+

+

+### SX1262

+

+

+

+- [[UPG2179-dat]]

+

+- [[TP4056-dat]]

+

+## ref

+

+- [[solutions-dat]]

+

+# solutions-dat.md

+

+- [[NRF52840+SX1262-dat]]